empath-techpaper1

我想发明人类制造机英语作文250字Humankind Fabricator: An Exploration into the Realm of Mechanical Creation.In the annals of human ingenuity, the pursuit of innovation has propelled us to unimaginable heights. From the humble beginnings of stone tools to the cutting-edge advancements of artificial intelligence, our ability to shape the world around us has been an unwavering testament to our boundless creativity. Yet, one tantalizing frontier that has long eluded our grasp remains the prospect of creating life itself.Enter the Humankind Fabricator, a hypothetical machine conceived to revolutionize the very essence of human existence. This extraordinary apparatus would possess the astonishing capability of synthesizing living human individuals from scratch, leaving behind the traditional confines of biological reproduction. Its impact would be profound, reshaping the foundations of society, ethics, andour understanding of humanity itself.The Humankind Fabricator would operate on the principles of advanced genetic engineering and cellular manipulation. By carefully selecting and combining genetic material, it could generate unique individuals with predetermined traits and characteristics. The potential applications of such a machine are staggering. It could eliminate genetic diseases and birth defects, ensuring a healthier and more equitable world. It could tailor individuals to specific roles or professions, optimizing human capital and societal efficiency.However, the Humankind Fabricator also raises profound ethical dilemmas that demand careful consideration. Concerns over designer babies, the potential for discrimination based on genetic traits, and the erosion of natural diversity loom large. To navigate these uncharted waters, a robust ethical framework would be essential, ensuring the responsible and equitable use of this unprecedented technology.Moreover, the introduction of the Humankind Fabricator would necessitate a fundamental reassessment of our understanding of humanity. No longer would life be confined to the realm of biological chance; instead, it would become a product of conscious design. This shift would undoubtedly have a profound impact on our perception of identity, individuality, and the very meaning of existence.In the end, the Humankind Fabricator remains a hypothetical concept, a tantalizing glimpse into the boundless possibilities of human ingenuity. While its realization may lie beyond our current technological capabilities, the exploration of its potentialramifications serves as a timely reminder of the profound responsibility we bear as we navigate the uncharted frontiers of science and technology.。

科技感假肢作文Artificial limbs have come a long way in recent years, with advancements in technology allowing for more realistic and functional prosthetic options for amputees. 科技感假肢在近年来取得了长足的进步，技术的发展为截肢者提供了更加逼真和功能性更强的义肢选择。

These modern prosthetics are designed to closely mimic the function and appearance of natural limbs, giving users a sense of normalcy and freedom of movement. 这些现代义肢的设计旨在紧密模拟自然肢体的功能和外观，为用户提供一种正常性和活动自由感。

One of the key features of high-tech prosthetics is their ability to be controlled using the wearer's own muscle signals, allowing for more precise and natural movements. 高科技义肢的一个关键特点是它们能够通过使用者自身的肌肉信号来控制，从而实现更加精确和自然的运动。

For amputees, the ability to regain some level of functionality and independence through the use of advanced prosthetics can be life-changing. 对于截肢者来说，通过使用先进的义肢恢复部分功能性和独立性的能力可能会改变他们的生活。

全息投影手环的作文英语Title: The Revolutionary Holographic Projection Wristband。

In recent years, technology has advanced by leaps and bounds, bringing forth innovations that redefine the way we perceive and interact with the world around us. Among these remarkable advancements stands the holographic projection wristband, a groundbreaking invention poised to revolutionize the realm of wearable technology. In this essay, we delve into the myriad capabilities and implications of this cutting-edge device.At its core, the holographic projection wristband integrates state-of-the-art holographic technology into a sleek, wearable form factor. Unlike traditional displays, which are confined to flat screens, this wristband projects three-dimensional holograms into the surrounding space, creating an immersive visual experience for the user and those around them.One of the most notable features of the holographic projection wristband is its versatility. Whether it's for entertainment, communication, education, or productivity, the wristband offers a wide range of applications limited only by imagination. Imagine being able to watch your favorite movies or concerts in full 3D, with holographic images appearing as if they were right in front of you. Furthermore, the wristband could serve as a communication tool, allowing users to engage in holographic video calls with friends, family, or colleagues from anywhere in the world.In the realm of education, the holographic projection wristband holds immense potential to revolutionize learning experiences. Imagine students being able to visualize complex concepts in three dimensions, bringing subjectslike biology, physics, and history to life in ways never before possible. With interactive holographic simulations, learning becomes not only more engaging but also more effective, as students gain a deeper understanding of abstract concepts through immersive experiences.Moreover, the wristband could significantly enhance productivity in various fields. For professionals such as architects, engineers, and designers, being able tovisualize and manipulate 3D models directly in front ofthem could streamline the design process and foster greater creativity. In business settings, presentations could become more dynamic and engaging, as speakers use holographic visuals to convey their ideas with impact.Beyond its practical applications, the holographic projection wristband also has the potential to reshape entertainment and social interactions. Imagine attendinglive events where holographic performers interact with the audience in real-time, blurring the lines between thevirtual and the physical worlds. Additionally, thewristband could enable new forms of social media, where users share holographic experiences and engage with each other in immersive virtual environments.Of course, with any new technology, there are also considerations regarding privacy, security, and ethical use.As holographic projections become more commonplace in everyday life, it will be essential to establish clear guidelines and regulations to protect users' privacy and prevent misuse of the technology.In conclusion, the holographic projection wristband represents a paradigm shift in wearable technology, offering a glimpse into a future where interactions with digital content are no longer confined to screens but seamlessly integrated into our surroundings. With its vast potential for entertainment, education, productivity, and social interaction, the wristband heralds a new era of immersive experiences limited only by our imagination. As we continue to push the boundaries of technological innovation, the possibilities presented by the holographic projection wristband are truly limitless.。

引用格式：张青春, 吴峥, 周玲, 等. 基于改进 YOLOv5 的车辆与行人目标识别方法[J]. 中国测试，2023, 49(7): 82-88. ZHANG Qingchun, WU Zheng, ZHOU Ling, et al. Vehicle and pedestrian target detection method based on improved YOLOv5[J]. China Measurement & Test, 2023, 49(7): 82-88. DOI: 10.11857/j.issn.1674-5124.2022060008基于改进 YOLOv5 的车辆与行人目标识别方法张青春， 吴 峥， 周 玲， 刘晓洋(淮阴工学院自动化学院，江苏 淮安 223001)摘　要: 为改进无人驾驶技术部署困难问题，该文提出一种基于YOLOv5的目标识别算法。

算法引入Ghost Bottleneck 模块，CBAM 模块，将网络参数压缩，减少模型整体的计算量，同时提升模型推理速度；将原始模型CIoU 损失函数替换为α-IoU 损失函数，使得模型训练过程中更快收敛；用DWConv 层替代原有网络中Neck 部分的Conv 层，可大大降低网络参数数量以及运算成本，同时可提取不同大小的特征信息，提升模型在物体识别方面的鲁棒性。

实验证明，原始模型的参数量为7 095 906，权重文件为14.4 MB ，达到86.11%，检测速度为30.30 f/s;改进后模型参数量缩减为2 546 136，参数量减少了64.12%，权重文件为5.8 MB ，权重文件大小减小了59.72%，达到89.44%，检测速度提升至40.00 f/s ，检测速度提升了32.01%。

将改进后的模型部署至RK3399嵌入式移动端，算法识别速度较原始算法提升了约35.04%。

关键词: 无人驾驶; 目标检测; YOLOv5; Ghost Bottleneck; CBAM; α-IoU 中图分类号: P391.4; TN911.73文献标志码: A文章编号: 1674–5124(2023)07–0082–07Vehicle and pedestrian target detection methodbased on improved YOLOv5ZHANG Qingchun, WU Zheng, ZHOU Ling, LIU Xiaoyang (Huaiyin Institute of Technology, Huaian 223001, China)Abstract : In order to improve the deployment difficulties of unmanned technology, this paper proposes a target detection algorithm based on YOLOv5. The algorithm introduces the Ghost Bottleneck module and the CBAM module. It reduces the overall computational effort of the model by compressing the network parameters and increases the speed of model inference. It replaces the original model CIoU loss function with an α-IoU loss function, so that the model converges faster during training. This paper replaces the Conv layer in the Neck part of the original network with the DWConv layer. It can reduce the number of network parameters as well as the computational cost, while extracting feature information of different sizes. To a certain extent, it can improve the robustness of the model in terms of object recognition. It was demonstrated experimentally that the original model had a parametric count of 7 095 detection speed of 30.30 frames/s. After the model improvement, the number of parameters of the model was reduced to 2 546 136, the amount of parameters was reduced by 64.12%, the weight file was 5.8 MB, the收稿日期: 2022-06-02；收到修改稿日期: 2022-08-23基金项目: 江苏省研究生科研与实践创新计划项目（SJCX21_1507）作者简介: 张青春（1964-），男，江苏盱眙县人，教授，研究方向为智能检测技术、物联网应用技术、移动机器人、虚拟仪器技术等。

制作全息投影作文英语Title: The Marvels of Holographic Projection。

In the realm of technological advancements, one innovation that continues to captivate the imagination is holographic projection. This futuristic technology has transcended the confines of science fiction and become a reality, offering a myriad of applications across various industries.To comprehend the essence of holographic projection,it's imperative to delve into its underlying principles. Unlike traditional two-dimensional projections, holographic projection utilizes interference patterns to create three-dimensional images that appear to float in space. This is achieved through the interaction of coherent light beams with diffraction patterns encoded on a holographic medium.One of the most notable applications of holographic projection is in entertainment. Imagine stepping into aconcert hall where your favorite artist performs as a lifelike hologram, captivating the audience with an immersive experience that transcends physical boundaries. Similarly, holographic projections have revolutionized the world of theater, enabling directors to create awe-inspiring visual effects and bring fictional worlds to life on stage.Beyond entertainment, holographic projection holds immense potential in education and training. By visualizing complex concepts in three dimensions, educators can enhance learning experiences and foster deeper understanding among students. Medical schools, for instance, utilize holographic projections to simulate surgical procedures, allowing aspiring surgeons to hone their skills in a risk-free environment.Moreover, holographic projection has transformative implications for communication and collaboration. In the realm of telepresence, holographic conferencing enables individuals to interact with remote counterparts as if they were physically present, fostering seamless collaborationacross geographic distances. This has profound implications for businesses, facilitating virtual meetings and presentations that transcend the limitations of traditional video conferencing.In the field of design and engineering, holographic projection serves as a powerful tool for prototyping and visualization. Architects can use holographic models to explore design concepts in three dimensions, enabling clients to visualize buildings before they are constructed. Similarly, engineers leverage holographic projections to simulate product designs and identify potential flaws before manufacturing, thus streamlining the product development process.Furthermore, holographic projection has revolutionized advertising and marketing strategies. Brands can create immersive experiences by projecting holographic advertisements in public spaces, capturing the attention of passersby and leaving a lasting impression. Thisinteractive approach to marketing not only enhances brand visibility but also fosters consumer engagement and brandloyalty.In the realm of art and creativity, holographic projection serves as a medium for expression and experimentation. Artists push the boundaries of imagination by creating stunning holographic artworks that defy conventional perception. From mesmerizing light shows to interactive installations, holographic art transcends traditional artistic mediums and invites viewers into a world of endless possibilities.As we gaze into the future, the potential of holographic projection seems boundless. From entertainment and education to communication and design, this transformative technology continues to redefine our perception of reality and unlock new realms of creativity and innovation. As we embrace the marvels of holographic projection, we embark on a journey into a world where the boundaries between the virtual and the physical dissolve, paving the way for a future limited only by the bounds of imagination.。

华中师范大学物理学院物理学专业英语仅供内部学习参考！2014一、课程的任务和教学目的通过学习《物理学专业英语》，学生将掌握物理学领域使用频率较高的专业词汇和表达方法，进而具备基本的阅读理解物理学专业文献的能力。

通过分析《物理学专业英语》课程教材中的范文，学生还将从英语角度理解物理学中个学科的研究内容和主要思想，提高学生的专业英语能力和了解物理学研究前沿的能力。

培养专业英语阅读能力，了解科技英语的特点，提高专业外语的阅读质量和阅读速度；掌握一定量的本专业英文词汇，基本达到能够独立完成一般性本专业外文资料的阅读；达到一定的笔译水平。

要求译文通顺、准确和专业化。

要求译文通顺、准确和专业化。

二、课程内容课程内容包括以下章节：物理学、经典力学、热力学、电磁学、光学、原子物理、统计力学、量子力学和狭义相对论三、基本要求1.充分利用课内时间保证充足的阅读量（约1200~1500词/学时），要求正确理解原文。

2.泛读适量课外相关英文读物，要求基本理解原文主要内容。

3.掌握基本专业词汇（不少于200词）。

4.应具有流利阅读、翻译及赏析专业英语文献，并能简单地进行写作的能力。

四、参考书目录1 Physics 物理学 (1)Introduction to physics (1)Classical and modern physics (2)Research fields (4)V ocabulary (7)2 Classical mechanics 经典力学 (10)Introduction (10)Description of classical mechanics (10)Momentum and collisions (14)Angular momentum (15)V ocabulary (16)3 Thermodynamics 热力学 (18)Introduction (18)Laws of thermodynamics (21)System models (22)Thermodynamic processes (27)Scope of thermodynamics (29)V ocabulary (30)4 Electromagnetism 电磁学 (33)Introduction (33)Electrostatics (33)Magnetostatics (35)Electromagnetic induction (40)V ocabulary (43)5 Optics 光学 (45)Introduction (45)Geometrical optics (45)Physical optics (47)Polarization (50)V ocabulary (51)6 Atomic physics 原子物理 (52)Introduction (52)Electronic configuration (52)Excitation and ionization (56)V ocabulary (59)7 Statistical mechanics 统计力学 (60)Overview (60)Fundamentals (60)Statistical ensembles (63)V ocabulary (65)8 Quantum mechanics 量子力学 (67)Introduction (67)Mathematical formulations (68)Quantization (71)Wave-particle duality (72)Quantum entanglement (75)V ocabulary (77)9 Special relativity 狭义相对论 (79)Introduction (79)Relativity of simultaneity (80)Lorentz transformations (80)Time dilation and length contraction (81)Mass-energy equivalence (82)Relativistic energy-momentum relation (86)V ocabulary (89)正文标记说明：蓝色Arial字体（例如energy）：已知的专业词汇蓝色Arial字体加下划线（例如electromagnetism）：新学的专业词汇黑色Times New Roman字体加下划线（例如postulate）：新学的普通词汇1 Physics 物理学1 Physics 物理学Introduction to physicsPhysics is a part of natural philosophy and a natural science that involves the study of matter and its motion through space and time, along with related concepts such as energy and force. More broadly, it is the general analysis of nature, conducted in order to understand how the universe behaves.Physics is one of the oldest academic disciplines, perhaps the oldest through its inclusion of astronomy. Over the last two millennia, physics was a part of natural philosophy along with chemistry, certain branches of mathematics, and biology, but during the Scientific Revolution in the 17th century, the natural sciences emerged as unique research programs in their own right. Physics intersects with many interdisciplinary areas of research, such as biophysics and quantum chemistry,and the boundaries of physics are not rigidly defined. New ideas in physics often explain the fundamental mechanisms of other sciences, while opening new avenues of research in areas such as mathematics and philosophy.Physics also makes significant contributions through advances in new technologies that arise from theoretical breakthroughs. For example, advances in the understanding of electromagnetism or nuclear physics led directly to the development of new products which have dramatically transformed modern-day society, such as television, computers, domestic appliances, and nuclear weapons; advances in thermodynamics led to the development of industrialization; and advances in mechanics inspired the development of calculus.Core theoriesThough physics deals with a wide variety of systems, certain theories are used by all physicists. Each of these theories were experimentally tested numerous times and found correct as an approximation of nature (within a certain domain of validity).For instance, the theory of classical mechanics accurately describes the motion of objects, provided they are much larger than atoms and moving at much less than the speed of light. These theories continue to be areas of active research, and a remarkable aspect of classical mechanics known as chaos was discovered in the 20th century, three centuries after the original formulation of classical mechanics by Isaac Newton (1642–1727) 【艾萨克·牛顿】.University PhysicsThese central theories are important tools for research into more specialized topics, and any physicist, regardless of his or her specialization, is expected to be literate in them. These include classical mechanics, quantum mechanics, thermodynamics and statistical mechanics, electromagnetism, and special relativity.Classical and modern physicsClassical mechanicsClassical physics includes the traditional branches and topics that were recognized and well-developed before the beginning of the 20th century—classical mechanics, acoustics, optics, thermodynamics, and electromagnetism.Classical mechanics is concerned with bodies acted on by forces and bodies in motion and may be divided into statics (study of the forces on a body or bodies at rest), kinematics (study of motion without regard to its causes), and dynamics (study of motion and the forces that affect it); mechanics may also be divided into solid mechanics and fluid mechanics (known together as continuum mechanics), the latter including such branches as hydrostatics, hydrodynamics, aerodynamics, and pneumatics.Acoustics is the study of how sound is produced, controlled, transmitted and received. Important modern branches of acoustics include ultrasonics, the study of sound waves of very high frequency beyond the range of human hearing; bioacoustics the physics of animal calls and hearing, and electroacoustics, the manipulation of audible sound waves using electronics.Optics, the study of light, is concerned not only with visible light but also with infrared and ultraviolet radiation, which exhibit all of the phenomena of visible light except visibility, e.g., reflection, refraction, interference, diffraction, dispersion, and polarization of light.Heat is a form of energy, the internal energy possessed by the particles of which a substance is composed; thermodynamics deals with the relationships between heat and other forms of energy.Electricity and magnetism have been studied as a single branch of physics since the intimate connection between them was discovered in the early 19th century; an electric current gives rise to a magnetic field and a changing magnetic field induces an electric current. Electrostatics deals with electric charges at rest, electrodynamics with moving charges, and magnetostatics with magnetic poles at rest.Modern PhysicsClassical physics is generally concerned with matter and energy on the normal scale of1 Physics 物理学observation, while much of modern physics is concerned with the behavior of matter and energy under extreme conditions or on the very large or very small scale.For example, atomic and nuclear physics studies matter on the smallest scale at which chemical elements can be identified.The physics of elementary particles is on an even smaller scale, as it is concerned with the most basic units of matter; this branch of physics is also known as high-energy physics because of the extremely high energies necessary to produce many types of particles in large particle accelerators. On this scale, ordinary, commonsense notions of space, time, matter, and energy are no longer valid.The two chief theories of modern physics present a different picture of the concepts of space, time, and matter from that presented by classical physics.Quantum theory is concerned with the discrete, rather than continuous, nature of many phenomena at the atomic and subatomic level, and with the complementary aspects of particles and waves in the description of such phenomena.The theory of relativity is concerned with the description of phenomena that take place in a frame of reference that is in motion with respect to an observer; the special theory of relativity is concerned with relative uniform motion in a straight line and the general theory of relativity with accelerated motion and its connection with gravitation.Both quantum theory and the theory of relativity find applications in all areas of modern physics.Difference between classical and modern physicsWhile physics aims to discover universal laws, its theories lie in explicit domains of applicability. Loosely speaking, the laws of classical physics accurately describe systems whose important length scales are greater than the atomic scale and whose motions are much slower than the speed of light. Outside of this domain, observations do not match their predictions.Albert Einstein【阿尔伯特·爱因斯坦】contributed the framework of special relativity, which replaced notions of absolute time and space with space-time and allowed an accurate description of systems whose components have speeds approaching the speed of light.Max Planck【普朗克】, Erwin Schrödinger【薛定谔】, and others introduced quantum mechanics, a probabilistic notion of particles and interactions that allowed an accurate description of atomic and subatomic scales.Later, quantum field theory unified quantum mechanics and special relativity.General relativity allowed for a dynamical, curved space-time, with which highly massiveUniversity Physicssystems and the large-scale structure of the universe can be well-described. General relativity has not yet been unified with the other fundamental descriptions; several candidate theories of quantum gravity are being developed.Research fieldsContemporary research in physics can be broadly divided into condensed matter physics; atomic, molecular, and optical physics; particle physics; astrophysics; geophysics and biophysics. Some physics departments also support research in Physics education.Since the 20th century, the individual fields of physics have become increasingly specialized, and today most physicists work in a single field for their entire careers. "Universalists" such as Albert Einstein (1879–1955) and Lev Landau (1908–1968)【列夫·朗道】, who worked in multiple fields of physics, are now very rare.Condensed matter physicsCondensed matter physics is the field of physics that deals with the macroscopic physical properties of matter. In particular, it is concerned with the "condensed" phases that appear whenever the number of particles in a system is extremely large and the interactions between them are strong.The most familiar examples of condensed phases are solids and liquids, which arise from the bonding by way of the electromagnetic force between atoms. More exotic condensed phases include the super-fluid and the Bose–Einstein condensate found in certain atomic systems at very low temperature, the superconducting phase exhibited by conduction electrons in certain materials,and the ferromagnetic and antiferromagnetic phases of spins on atomic lattices.Condensed matter physics is by far the largest field of contemporary physics.Historically, condensed matter physics grew out of solid-state physics, which is now considered one of its main subfields. The term condensed matter physics was apparently coined by Philip Anderson when he renamed his research group—previously solid-state theory—in 1967. In 1978, the Division of Solid State Physics of the American Physical Society was renamed as the Division of Condensed Matter Physics.Condensed matter physics has a large overlap with chemistry, materials science, nanotechnology and engineering.Atomic, molecular and optical physicsAtomic, molecular, and optical physics (AMO) is the study of matter–matter and light–matter interactions on the scale of single atoms and molecules.1 Physics 物理学The three areas are grouped together because of their interrelationships, the similarity of methods used, and the commonality of the energy scales that are relevant. All three areas include both classical, semi-classical and quantum treatments; they can treat their subject from a microscopic view (in contrast to a macroscopic view).Atomic physics studies the electron shells of atoms. Current research focuses on activities in quantum control, cooling and trapping of atoms and ions, low-temperature collision dynamics and the effects of electron correlation on structure and dynamics. Atomic physics is influenced by the nucleus (see, e.g., hyperfine splitting), but intra-nuclear phenomena such as fission and fusion are considered part of high-energy physics.Molecular physics focuses on multi-atomic structures and their internal and external interactions with matter and light.Optical physics is distinct from optics in that it tends to focus not on the control of classical light fields by macroscopic objects, but on the fundamental properties of optical fields and their interactions with matter in the microscopic realm.High-energy physics (particle physics) and nuclear physicsParticle physics is the study of the elementary constituents of matter and energy, and the interactions between them.In addition, particle physicists design and develop the high energy accelerators,detectors, and computer programs necessary for this research. The field is also called "high-energy physics" because many elementary particles do not occur naturally, but are created only during high-energy collisions of other particles.Currently, the interactions of elementary particles and fields are described by the Standard Model.●The model accounts for the 12 known particles of matter (quarks and leptons) thatinteract via the strong, weak, and electromagnetic fundamental forces.●Dynamics are described in terms of matter particles exchanging gauge bosons (gluons,W and Z bosons, and photons, respectively).●The Standard Model also predicts a particle known as the Higgs boson. In July 2012CERN, the European laboratory for particle physics, announced the detection of a particle consistent with the Higgs boson.Nuclear Physics is the field of physics that studies the constituents and interactions of atomic nuclei. The most commonly known applications of nuclear physics are nuclear power generation and nuclear weapons technology, but the research has provided application in many fields, including those in nuclear medicine and magnetic resonance imaging, ion implantation in materials engineering, and radiocarbon dating in geology and archaeology.University PhysicsAstrophysics and Physical CosmologyAstrophysics and astronomy are the application of the theories and methods of physics to the study of stellar structure, stellar evolution, the origin of the solar system, and related problems of cosmology. Because astrophysics is a broad subject, astrophysicists typically apply many disciplines of physics, including mechanics, electromagnetism, statistical mechanics, thermodynamics, quantum mechanics, relativity, nuclear and particle physics, and atomic and molecular physics.The discovery by Karl Jansky in 1931 that radio signals were emitted by celestial bodies initiated the science of radio astronomy. Most recently, the frontiers of astronomy have been expanded by space exploration. Perturbations and interference from the earth's atmosphere make space-based observations necessary for infrared, ultraviolet, gamma-ray, and X-ray astronomy.Physical cosmology is the study of the formation and evolution of the universe on its largest scales. Albert Einstein's theory of relativity plays a central role in all modern cosmological theories. In the early 20th century, Hubble's discovery that the universe was expanding, as shown by the Hubble diagram, prompted rival explanations known as the steady state universe and the Big Bang.The Big Bang was confirmed by the success of Big Bang nucleo-synthesis and the discovery of the cosmic microwave background in 1964. The Big Bang model rests on two theoretical pillars: Albert Einstein's general relativity and the cosmological principle (On a sufficiently large scale, the properties of the Universe are the same for all observers). Cosmologists have recently established the ΛCDM model (the standard model of Big Bang cosmology) of the evolution of the universe, which includes cosmic inflation, dark energy and dark matter.Current research frontiersIn condensed matter physics, an important unsolved theoretical problem is that of high-temperature superconductivity. Many condensed matter experiments are aiming to fabricate workable spintronics and quantum computers.In particle physics, the first pieces of experimental evidence for physics beyond the Standard Model have begun to appear. Foremost among these are indications that neutrinos have non-zero mass. These experimental results appear to have solved the long-standing solar neutrino problem, and the physics of massive neutrinos remains an area of active theoretical and experimental research. Particle accelerators have begun probing energy scales in the TeV range, in which experimentalists are hoping to find evidence for the super-symmetric particles, after discovery of the Higgs boson.Theoretical attempts to unify quantum mechanics and general relativity into a single theory1 Physics 物理学of quantum gravity, a program ongoing for over half a century, have not yet been decisively resolved. The current leading candidates are M-theory, superstring theory and loop quantum gravity.Many astronomical and cosmological phenomena have yet to be satisfactorily explained, including the existence of ultra-high energy cosmic rays, the baryon asymmetry, the acceleration of the universe and the anomalous rotation rates of galaxies.Although much progress has been made in high-energy, quantum, and astronomical physics, many everyday phenomena involving complexity, chaos, or turbulence are still poorly understood. Complex problems that seem like they could be solved by a clever application of dynamics and mechanics remain unsolved; examples include the formation of sand-piles, nodes in trickling water, the shape of water droplets, mechanisms of surface tension catastrophes, and self-sorting in shaken heterogeneous collections.These complex phenomena have received growing attention since the 1970s for several reasons, including the availability of modern mathematical methods and computers, which enabled complex systems to be modeled in new ways. Complex physics has become part of increasingly interdisciplinary research, as exemplified by the study of turbulence in aerodynamics and the observation of pattern formation in biological systems.Vocabulary★natural science 自然科学academic disciplines 学科astronomy 天文学in their own right 凭他们本身的实力intersects相交，交叉interdisciplinary交叉学科的，跨学科的★quantum 量子的theoretical breakthroughs 理论突破★electromagnetism 电磁学dramatically显著地★thermodynamics热力学★calculus微积分validity★classical mechanics 经典力学chaos 混沌literate 学者★quantum mechanics量子力学★thermodynamics and statistical mechanics热力学与统计物理★special relativity狭义相对论is concerned with 关注，讨论，考虑acoustics 声学★optics 光学statics静力学at rest 静息kinematics运动学★dynamics动力学ultrasonics超声学manipulation 操作，处理，使用University Physicsinfrared红外ultraviolet紫外radiation辐射reflection 反射refraction 折射★interference 干涉★diffraction 衍射dispersion散射★polarization 极化，偏振internal energy 内能Electricity电性Magnetism 磁性intimate 亲密的induces 诱导，感应scale尺度★elementary particles基本粒子★high-energy physics 高能物理particle accelerators 粒子加速器valid 有效的，正当的★discrete离散的continuous 连续的complementary 互补的★frame of reference 参照系★the special theory of relativity 狭义相对论★general theory of relativity 广义相对论gravitation 重力，万有引力explicit 详细的，清楚的★quantum field theory 量子场论★condensed matter physics凝聚态物理astrophysics天体物理geophysics地球物理Universalist博学多才者★Macroscopic宏观Exotic奇异的★Superconducting 超导Ferromagnetic铁磁质Antiferromagnetic 反铁磁质★Spin自旋Lattice 晶格，点阵，网格★Society社会，学会★microscopic微观的hyperfine splitting超精细分裂fission分裂，裂变fusion熔合，聚变constituents成分，组分accelerators加速器detectors 检测器★quarks夸克lepton 轻子gauge bosons规范玻色子gluons胶子★Higgs boson希格斯玻色子CERN欧洲核子研究中心★Magnetic Resonance Imaging磁共振成像，核磁共振ion implantation 离子注入radiocarbon dating放射性碳年代测定法geology地质学archaeology考古学stellar 恒星cosmology宇宙论celestial bodies 天体Hubble diagram 哈勃图Rival竞争的★Big Bang大爆炸nucleo-synthesis核聚合，核合成pillar支柱cosmological principle宇宙学原理ΛCDM modelΛ-冷暗物质模型cosmic inflation宇宙膨胀1 Physics 物理学fabricate制造，建造spintronics自旋电子元件，自旋电子学★neutrinos 中微子superstring 超弦baryon重子turbulence湍流，扰动，骚动catastrophes突变，灾变，灾难heterogeneous collections异质性集合pattern formation模式形成University Physics2 Classical mechanics 经典力学IntroductionIn physics, classical mechanics is one of the two major sub-fields of mechanics, which is concerned with the set of physical laws describing the motion of bodies under the action of a system of forces. The study of the motion of bodies is an ancient one, making classical mechanics one of the oldest and largest subjects in science, engineering and technology.Classical mechanics describes the motion of macroscopic objects, from projectiles to parts of machinery, as well as astronomical objects, such as spacecraft, planets, stars, and galaxies. Besides this, many specializations within the subject deal with gases, liquids, solids, and other specific sub-topics.Classical mechanics provides extremely accurate results as long as the domain of study is restricted to large objects and the speeds involved do not approach the speed of light. When the objects being dealt with become sufficiently small, it becomes necessary to introduce the other major sub-field of mechanics, quantum mechanics, which reconciles the macroscopic laws of physics with the atomic nature of matter and handles the wave–particle duality of atoms and molecules. In the case of high velocity objects approaching the speed of light, classical mechanics is enhanced by special relativity. General relativity unifies special relativity with Newton's law of universal gravitation, allowing physicists to handle gravitation at a deeper level.The initial stage in the development of classical mechanics is often referred to as Newtonian mechanics, and is associated with the physical concepts employed by and the mathematical methods invented by Newton himself, in parallel with Leibniz【莱布尼兹】, and others.Later, more abstract and general methods were developed, leading to reformulations of classical mechanics known as Lagrangian mechanics and Hamiltonian mechanics. These advances were largely made in the 18th and 19th centuries, and they extend substantially beyond Newton's work, particularly through their use of analytical mechanics. Ultimately, the mathematics developed for these were central to the creation of quantum mechanics.Description of classical mechanicsThe following introduces the basic concepts of classical mechanics. For simplicity, it often2 Classical mechanics 经典力学models real-world objects as point particles, objects with negligible size. The motion of a point particle is characterized by a small number of parameters: its position, mass, and the forces applied to it.In reality, the kind of objects that classical mechanics can describe always have a non-zero size. (The physics of very small particles, such as the electron, is more accurately described by quantum mechanics). Objects with non-zero size have more complicated behavior than hypothetical point particles, because of the additional degrees of freedom—for example, a baseball can spin while it is moving. However, the results for point particles can be used to study such objects by treating them as composite objects, made up of a large number of interacting point particles. The center of mass of a composite object behaves like a point particle.Classical mechanics uses common-sense notions of how matter and forces exist and interact. It assumes that matter and energy have definite, knowable attributes such as where an object is in space and its speed. It also assumes that objects may be directly influenced only by their immediate surroundings, known as the principle of locality.In quantum mechanics objects may have unknowable position or velocity, or instantaneously interact with other objects at a distance.Position and its derivativesThe position of a point particle is defined with respect to an arbitrary fixed reference point, O, in space, usually accompanied by a coordinate system, with the reference point located at the origin of the coordinate system. It is defined as the vector r from O to the particle.In general, the point particle need not be stationary relative to O, so r is a function of t, the time elapsed since an arbitrary initial time.In pre-Einstein relativity (known as Galilean relativity), time is considered an absolute, i.e., the time interval between any given pair of events is the same for all observers. In addition to relying on absolute time, classical mechanics assumes Euclidean geometry for the structure of space.Velocity and speedThe velocity, or the rate of change of position with time, is defined as the derivative of the position with respect to time. In classical mechanics, velocities are directly additive and subtractive as vector quantities; they must be dealt with using vector analysis.When both objects are moving in the same direction, the difference can be given in terms of speed only by ignoring direction.University PhysicsAccelerationThe acceleration , or rate of change of velocity, is the derivative of the velocity with respect to time (the second derivative of the position with respect to time).Acceleration can arise from a change with time of the magnitude of the velocity or of the direction of the velocity or both . If only the magnitude v of the velocity decreases, this is sometimes referred to as deceleration , but generally any change in the velocity with time, including deceleration, is simply referred to as acceleration.Inertial frames of referenceWhile the position and velocity and acceleration of a particle can be referred to any observer in any state of motion, classical mechanics assumes the existence of a special family of reference frames in terms of which the mechanical laws of nature take a comparatively simple form. These special reference frames are called inertial frames .An inertial frame is such that when an object without any force interactions (an idealized situation) is viewed from it, it appears either to be at rest or in a state of uniform motion in a straight line. This is the fundamental definition of an inertial frame. They are characterized by the requirement that all forces entering the observer's physical laws originate in identifiable sources (charges, gravitational bodies, and so forth).A non-inertial reference frame is one accelerating with respect to an inertial one, and in such a non-inertial frame a particle is subject to acceleration by fictitious forces that enter the equations of motion solely as a result of its accelerated motion, and do not originate in identifiable sources. These fictitious forces are in addition to the real forces recognized in an inertial frame.A key concept of inertial frames is the method for identifying them. For practical purposes, reference frames that are un-accelerated with respect to the distant stars are regarded as good approximations to inertial frames.Forces; Newton's second lawNewton was the first to mathematically express the relationship between force and momentum . Some physicists interpret Newton's second law of motion as a definition of force and mass, while others consider it a fundamental postulate, a law of nature. Either interpretation has the same mathematical consequences, historically known as "Newton's Second Law":a m t v m t p F ===d )(d d dThe quantity m v is called the (canonical ) momentum . The net force on a particle is thus equal to rate of change of momentum of the particle with time.So long as the force acting on a particle is known, Newton's second law is sufficient to。

MPI Probe Selection GuideWith a critical understanding of the numerous measurement challenges associated with today’s RF ap-plications, MPI Corporation has developed TITAN™ RF Probes, a product series specifically optimized for these complex applications centered upon the requirements of advanced RF customers.TITAN™ Probes provide the latest in technology and manufacturing advancements within the field of RF testing. They are derived from the technology transfer that accompanied the acquisition of Allstron, then significantly enhanced by MPI’s highly experienced RF testing team and subsequently produced utilizing MPI’s world class MEMS technology. Precisely manufactured, the TITAN™ Probes include matched 50 Ohm MEMS contact tips with improved probe electrical characteristics which allow the realization of unmat -ched calibration results over a wide frequency range. The patented protrusion tip design enables small passivation window bond pad probing, while significantly reducing probe skate thus providing the out -standing contact repeatability required in today’s extreme measurement environments. TITAN TM Probes with all their features are accompanied by a truly affordable price.The TITAN™ Probe series are available in single-ended and dual tip configurations, with pitch range from 50 micron to 1250 micron and frequencies from 26 GHz to 110 GHz. TITAN™ RF Probes are the ideal choice for on-wafer S-parameter measurements of RF, mm-wave devices and circuits up to 110 GHz as well as for the characterization of RF power devices requiring up to 10 Watts of continuous power. Finally, customers can benefit from both long product life and unbeatable cost of ownership which they have desired foryears.Unique design of the MEMS coplanar contacttip of the TITAN™ probe series.DC-needle-alike visibility of the contact point and the minimal paddamage due to the unique design of the tipAC2-2 Thru S11 Repeatability. Semi-Automated System.-100-80-60-40-200 S 11 E r r o r M a g n i t u d e (d B )Frequency (GHz)Another advantage of the TITAN™ probe is its superior contact repeatability, which is comparable with the entire system trace noise when measured on the semi-automated system and on gold contact pads.CROSSTALKCrosstalk of TITAN™ probes on the short and the bare ceramic open standard of 150 micron spacing compared to conventional 110 GHz probe technologies. Results are corrected by the multiline TRL calibration. All probes are of GSG configuration and 100 micron pitch.-80-60-40-200Crosstalk on Open. Multiline TRL Calibration.M a g (S21) (d B )Frequency (GHz)-80-60-40-200Crosstalk on Short. Multiline TRL Calibration.M a g (S21) (d B )Frequency (GHz)The maximal probe c ontac t repeatability error of the c alibrate S11-parameter of the AC2-2 thru standard by T110 probes. Semi-automated system. Ten contact circles.Cantilever needle material Ni alloy Body materialAl alloy Contact pressure @2 mils overtravel 20 g Lifetime, touchdowns> 1,000,000Ground and signal alignment error [1]± 3 µm [1]Planarity error [1] ± 3 µm [1]Contact footprint width < 30 µm Contact resistance on Au < 3 mΩThermal range-60 to 175 °CMechanical CharacteristicsAC2-2 Thru S21 Repeatability. Manual TS50 System.-100-80-60-40-200S 21 E r r o r M a g n i t u d e (d B )Frequency (GHz)MECHANICAL CHARACTERISTICSThe maximal probe c ontac t repeatability error of the c alibrate S21-parameter of the AC2-2 thru standard by T50 probes. Manual probe system TS50.26 GHZ PROBES FOR WIRELESS APPLICATIONSUnderstanding customer needs to reduce the cost of development and product testing for the high competitive wireless application market, MPI offers low-cost yet high-performance RF probes. The specifically developed SMA connector and its outstanding transmission of electro-magnetic waves through the probe design make these probes suitable for applications frequencies up to 26 GHz. The available pitch range is from 50 micron to 1250 micron with GS/SG and GSG probe tip configurations. TITAN™ 26 GHz probes are the ideal choice for measurement needs when developing components for WiFi, Bluetooth, and 3G/4G commercial wireless applications as well as for student education.Characteristic Impedance 50 ΩFrequency rangeDC to 26 GHz Insertion loss (GSG configuration)1< 0.4 dB Return loss (GSG configuration)1> 16 dB DC current ≤ 1 A DC voltage ≤ 100 V RF power, @10 GHz≤ 5 WTypical Electrical Characteristics26 GHz Probe Model: T26Connector SMAPitch range50 µm to 1250 µm Standard pitch step from 50 µm to 450 µm from 500 µm to 1250 µm25 µm step 50 µm stepAvailable for 90 µm pitch Tip configurations GSG, GS, SG Connector angleV-Style: 90-degree A-Style: 45-degreeMechanical CharacteristicsT26 probe, A-Style of the connectorTypical Electrical Characteristics: 26 GHz GSG probe, 250 micron pitchPROBES FOR DEVICE AND IC CHARACTERIZATION UP TO 110 GHZTITAN™ probes realize a unique combination of the micro-coaxial cable based probe technology and MEMS fabricated probe tip. A perfectly matched characteristic impedance of the coplanar probe tips and optimized signal transmission across the entire probe down to the pads of the device under test (DUT) result in excellent probe electrical characteristics. At the same time, the unique design of the probe tip provides minimal probe forward skate on any type of pad metallization material, therefo -re achieving accurate and repeatable measurement up to 110 GHz. TITAN™ probes are suitable for probing on small pads with long probe lifetime and low cost of ownership.The TITAN™ probe family contains dual probes for engineering and design debug of RF and mm-wave IC’s as well as high-end mm-wave range probes for S-parameter characterization up to 110 GHz for modeling of high-performance microwave devices.Characteristic Impedance 50 ΩFrequency rangeDC to 40 GHz Insertion loss (GSG configuration)1< 0.6 dB Return loss (GSG configuration)1> 18 dB DC current ≤ 1 A DC voltage ≤ 100 V RF power, @10 GHz≤ 5 WTypical Electrical Characteristics40 GHz Probe Model: T40Connector K (2.92 mm)Pitch range50 µm to 500 µmStandard pitch step For GSG configuration:from 50 µm to 450 µm from 500 µm to 800 µmFor GS/SG configuration:from 50 µm to 450 µm 25 µm step 50 µm stepAvailable for 90 µm pitch25 µm stepAvailable for 90/500 µm pitch Tip configurations GSG, GS, SG Connector angleV-Style: 90-degree A-Style: 45-degreeMechanical CharacteristicsTypical Electrical Characteristics: 40 GHz GSG probe, 150 micron pitchT40 probe, A-Style of the connectorCharacteristic Impedance50 ΩFrequency range DC to 50 GHz Insertion loss (GSG configuration)1< 0.6 dB Return loss (GSG configuration)1> 17 dBDC current≤ 1 ADC voltage≤ 100 VRF power, @10 GHz≤ 5 W Typical Electrical Characteristics Connector Q (2.4 mm)Pitch range50 µm to 250 µm Standard pitch stepFor GSG configuration: from 50 µm to 450 µm For GS/SG configuration: from 50 µm to 450 µm 25 µm stepAvailable for 90/500/550 µm pitch 25 µm stepAvailable for 90/500 µm pitchTip configurations GSG, GS, SG Connector angle V-Style: 90-degreeA-Style: 45-degreeMechanical CharacteristicsT50 probe, A-Style of the connectorTypical Electrical Characteristics: 50 GHz GSG probe, 150 micron pitchCharacteristic Impedance50 ΩFrequency range DC to 67 GHz Insertion loss (GSG configuration)1< 0.8 dB Return loss (GSG configuration)1> 16 dBDC current≤ 1 ADC voltage≤ 100 VRF power, @10 GHz≤ 5 W Typical Electrical Characteristics Connector V (1.85 mm)Pitch range50 µm to 250 µm Standard pitch stepFor GSG configuration: from 50 µm to 400 µm For GS/SG configuration: from 50 µm to 250 µm 25 µm step Available for 90 µm pitch25 µm step Available for 90 µm pitchTip configurations GSG Connector angle V-Style: 90-degreeA-Style: 45-degreeMechanical CharacteristicsT67 probe, A-Style of the connectorTypical Electrical Characteristics: 67 GHz GSG probe, 100 micron pitchCharacteristic Impedance 50 ΩFrequency rangeDC to 110 GHz Insertion loss (GSG configuration)1< 1.2 dB Return loss (GSG configuration)1> 14 dB DC current ≤ 1 A DC voltage ≤ 100 V RF power, @10 GHz≤ 5 WTypical Electrical CharacteristicsMechanical CharacteristicsTypical Electrical Characteristics: 110 GHz GSG probe, 100 micron pitchT110 probe, A-Style of the connectorCharacteristic impedance50 ΩFrequency range DC to 220 GHz Insertion loss (GSG configuration)1< 5 dB Connector end return loss(GSG configuration)1> 9 dBTip end return loss(GSG configuration)1> 13 dBDC current≤ 1.5 ADC voltage≤ 50 V Typical Electrical CharacteristicsConnector Broadband interface Pitch range50/75/90/100/125 µm Temperature range -40 ~ 150 ºC Contact width15 µmquadrant compatible(allowing corner pads)Yes recommended pad size20 µm x 20 µm recommended OT (overtravel)15 µmcontact resistance(on Al at 20 ºC using 15 µm OT)< 45 mΩlifetime touchdowns(on Al at 20 ºC using 15 µm OT)> 200,000Mechanical CharacteristicsT220 probe, broadband interface Typical Performance (at 20 ºC for 100 µm pitch)BODY DIMENSIONS PROBES Single-Ended V-StyleT220 GHz Probe1.161.1628.328437.455.6512.5527.73Single-Ended A-StyleCALIBRATION SUBSTRATESAC-series of calibration standard substrates offers up to 26 standard sets for wafer-level SOL T, LRM probe-tip cali -bration for GS/SG and GSG probes. Five coplanar lines provide the broadband reference multiline TRL calibration as well as accurate verification of conventional methods. Right-angled reciprocal elements are added to support the SOLR calibration of the system with the right-angled configuration of RF probes. A calibration substrate for wide-pitch probes is also available.Material Alumina Elements designCoplanarSupported calibration methods SOLT, LRM, SOLR, TRL and multiline TRL Thickness 635 µmSizeAC2-2 : 16.5 x 12.5 mm AC3 : 16.5 x 12.5 mm AC5 : 22.5 x 15 mm Effective velocity factor @20 GHz0.45Nominal line characteristic impedance @20 GHz 50 ΩNominal resistance of the load 50 ΩTypical load trimming accuracy error ± 0.3 %Open standardAu pads on substrate Calibration verification elements Yes Ruler scale 0 to 3 mm Ruler step size100 µmCalibration substrate AC2-2Probe Configuration GSGSupported probe pitch100 to 250 µm Number of SOL T standard groups 26Number of verification and calibration lines5Calibration substrate AC-3Probe Configuration GS/SG Supported probe pitch50 to 250 µm Number of SOL T standard groups 26Number of verification and calibration lines5Calibration substrate AC-5Probe Configuration GSG, GS/SG Supported probe pitch250 to 1250 µm Number of SOL T standard groups GSG : 7GS : 7SG : 7Open standardOn bare ceramic Number of verification and calibration linesGSG : 2GS : 1Typical characteristics of the coplanar line standard of AC2-2 calibration substrate measured using T110-GSG100 probes, and methods recommended by the National Institute of Standard and Technologies [2, 3].2468(d B /c m )F requency (G Hz)α-6-4-202I m a g (Z 0) ()F requency (G Hz)AC2-2 W#006 and T110A-GSG100Ω2.202.222.242.262.282.30 (u n i t l e s s )F requency (G Hz)β/βо4045505560R e a l (Z 0) ()F requency (G Hz)ΩTypical Electrical CharacteristicsMPI QAlibria® RF CALIBRATION SOFTWAREMPI QAlibria® RF calibration software has been designed to simplify complex and tedious RF system calibration tasks. By implementing a progressive disclosure methodology and realizing intuitive touch operation, QAlibria® provides crisp and clear guidance to the RF calibration process, minimizing con-figuration mistakes and helping to obtain accurate calibration results in fastest time. In addition, its concept of multiple GUI’s offers full access to all configuration settings and tweaks for advanced users. QAlibria® offers industry standard and advanced calibration methods. Furthermore, QAlibria® is integrated with the NIST StatistiCal™ calibration packages, ensuring easy access to the NIST mul-tiline TRL metrology-level calibration and uncertainty analysis.MPI Qalibria® supports a multi-language GUI, eliminating any evitable operation risks and inconvenience.SpecificationsRF AND MICROWAVE CABLESMPI offers an excellent selection of flexible cables and acces-sories for RF and mm-wave measurement applications forcomplete RF probe system integration.CablesHigh-quality cable assemblies with SMA and 3.5 mm connectorsprovide the best value for money, completing the entry-level RFsystems for measurement applications up to 26 GHz. Phase stab-le high-end flexible cable assemblies with high-precision 2.92, 2.4, 1.85 and 1 mm connectors guarantee high stability, accuracy and repeatability of the calibration and measurement for DC applications up to 110 GHz.MPI offers these cable assemblies in two standard lengths of 120 and 80 cm, matching the probe system’s footprint and the location of the VNA.Cables Ordering InformationMRC-18SMA-MF-80018 GHz SMA flex cable SMA (male) - SMA (female), 80 cmMRC-18SMA-MF-120018 GHz SMA flex cable SMA (male) - SMA (female), 120 cmMRC-26SMA-MF-80026 GHz SMA flex cable SMA (male) - SMA (female), 80 cmMRC-26SMA-MF-120026 GHz SMA flex cable SMA (male) - SMA (female), 120 cmMRC-40K-MF-80040 GHz flex cable 2.92 mm (K) connector, male-female, 80 cm longMRC-40K-MF-120040 GHz flex cable 2.92 mm (K) connector, male-female, 120 cm longMRC-50Q-MF-80050 GHz flex cable 2.4 mm (Q) connector, male-female , 80 cm longMRC-50Q-MF-120050 GHz flex cable 2.4 mm (Q) connector, male-female , 120 cm longMRC-67V-MF-80067 GHz flex cable 1.85 mm (V) connector, male-female, 80 cm longMRC-67V-MF-120067 GHz flex cable 1.85 mm (V) connector, male-female, 120 cm longMMC-40K-MF-80040 GHz precision flex cable 2.92 mm (K) connector, male-female, 80 cm long MMC-40K-MF-120040 GHz precision flex cable 2.92 mm (K) connector, male-female, 120 cm long MMC-50Q-MF-80050 GHz precision flex cable 2.4 mm (Q) connector, male-female , 80 cm long MMC-50Q-MF-120050 GHz precision flex cable 2.4 mm (Q) connector, male-female , 120 cm long MMC-67V-MF-80067 GHz precision flex cable 1.85 mm (V) connector, male-female, 80 cm long MMC-67V-MF-120067 GHz precision flex cable 1.85 mm (V) connector, male-female, 120 cm long MMC-110A-MF-250110 GHz precision flex cable 1 mm (A) connector, male-female, 25 cm longMPI Global PresenceDirect contact:Asia region: ****************************EMEA region: ******************************America region: ********************************MPI global presence: for your local support, please find the right contact here:/ast/support/local-support-worldwide© 2023 Copyright MPI Corporation. All rights reserved.[1] [2][3] REFERENCESParameter may vary depending upon tip configuration and pitch.R. B. Marks and D. F. Williams, "Characteristic impedance determination using propagation constant measu -rement," IEEE Microwave and Guided Wave Letters, vol. 1, pp. 141-143, June 1991.D. F. Williams and R. B. Marks, "Transmission line capacitance measurement," Microwave and Guided WaveLetters, IEEE, vol. 1, pp. 243-245, 1991.AdaptersHigh-In addition, high-quality RF and high-end mm-wave range adapters are offered to address challenges ofregular system reconfiguration and integration with different type of test instrumentation. MRA-NM-350F RF 11 GHz adapter N(male) - 3.5 (male), straight MRA-NM-350M RF 11 GHz adapter N(male) - 3.5 (female), straightMPA-350M-350F Precision 26 GHz adapter 3.5 mm (male) - 3.5 mm (female), straight MPA-350F-350F Precision 26 GHz adapter 3.5 mm (female) - 3.5 mm (female), straight MPA-350M-350M Precision 26 GHz adapter 3.5 mm (male) - 3.5 mm (male), straight MPA-292M-240F Precision 40 GHz adapter 2.92 mm (male) - 2.4 mm (female), straight MPA-292F-240M Precision 40 GHz adapter 2.92 mm (female) - 2.4 mm (male), straight MPA-292M-292F Precision 40 GHz adapter 2.92 mm (male) - 2.92 mm (female), straight MPA-292F-292F Precision 40 GHz adapter 2.92 mm (female) - 2.92 mm (female), straight MPA-292M-292M Precision 40 GHz adapter 2.92 mm (male) - 2.92 mm (male), straight MPA-240M-240F Precision 50 GHz adapter 2.4 mm (male) - 2.4 mm (female), straight MPA-240F-240F Precision 50 GHz adapter 2.4 mm (female) - 2.4 mm (female), straight MPA-240M-240M Precision 50 GHz adapter 2.4 mm (male) - 2.4 mm (male), straight MPA-185M-185F Precision 67 GHz adapter 1.85 mm (male) -1.85 mm (female), straight MPA-185F-185F Precision 67 GHz adapter 1.85 mm (female) -1.85 mm (female), straight MPA-185M-185M Precision 67 GHz adapter 1.85 mm (male) -1.85 mm (male), straight MPA-185M-100FPrecision 67 GHz adapter 1.85 mm (male) -1.00 mm (female), straightDisclaimer: TITAN Probe, QAlibria are trademarks of MPI Corporation, Taiwan. StatistiCal is a trademark of National Institute of Standards and Technology (NIST), USA. All other trademarks are the property of their respective owners. Data subject to change without notice.。

Two-Way RadioUser’s GuideMB SeriesSafety and General InformationFCC Licensing InformationControl ButtonsKEM-ML36000Important Information on Safe and Efficient Operation Read This Information Before Using Your Radio.The information provided in this document supersedes the general safety information in user guides published prior to December 1,2002.Transmit and Receive ProcedureYour two-way radio contains a transmitter and a receiver.To control your exposure and ensure compliance with the generalpopulation/uncontrolled environment exposure limits,always adhere to the following procedure:•Transmit no more than 50%of the time.•To receive calls,release the Push-to-Talk (PTT)button.•To transmit (talk),press the PTT button.Transmitting 50%of the time,or less,is important because the radio generates measurable RF energy exposure only when transmitting (in terms of measuring standards compliance).Exposure to Radio Frequency EnergyYour Motorola two-way radio complies with the following RF energy exposure standards and guidelines:•United States Federal communications Commission,Code of Federal Regulations;47CFR part 2sub-part J.•American National Standards Institute (ANSI)/Institute of Electrical and Electronic Engineers (IEEE)C95.1-1992.•Institute of Electrical and Electronics Engineers (IEEE)C95.1-1999Edition.•International Commission on Non-Ionizing Radiation Protection (ICNIRP)1998.•Ministry of Health (Canada)Safety Code 6.Limits of Human Exposure to Radiofrequency Electromagnetic Fields in the Frequency Range from 3KHz to 300GHz,1999.•Australian communications Authority Radiocommunications (Electromagnetic Radiation—Human Exposure)Standard,2003.Getting StartedDisplay Screen GuideInstalling the BatteriesEach radio uses 1NiMH rechargeable battery pack or 3AAA alkaline batteries and beeps when the batteries are low.Installing NiMH Rechargeable Battery Pack (Optional Accessory)1.Turn the radio off.2.With the back of the radio facing you,lift the battery latch up torelease the battery cover and remove the cover.3.Remove the NiMH battery pack from the clear plastic bag (do notdisassemble or unwrap the battery pack).4.Insert the NiMH battery pack with the diagram facing you.5.Reposition the battery cover and press down to secure.Installing the Three AAA Alkaline Batteries (Not Included)1.Turn the radio off.2.With the back of the radio facing you,lift the battery latch up torelease the battery cover and remove the cover.3.Insert the three AAA alkaline batteries with +and -polarity asshown inside.4.Reposition the battery cover and press down to secure.Radio Battery MeterThe radio battery icon shows the radio battery charge level,from fullto empty .When theradiohas one segment left,theradio chirps periodically or after releasing (Low Battery Alert).Talking and ListeningTo communicate,all radiosinyour group mustbe setto the samechannel.1.To talk,press and hold .2.When you are finished talking,release.For maximum clarity,hold the radio two to three inches away from your mouth and speak directly into the microphone.Do not cover the microphone while talking.Talk RangeYour radio is designed to maximize performance and improvetransmission range.Do not use the radios closer than five feet apart.Note:This radio does not have Interference Eliminator Codes.To communicate with radios that use Interference Eliminator Codes,the Interference Eliminator Code must be set to 0.Monitor ButtonUse this feature to see if there is anyone on the channel you have selected.1.Short press until RX appears.2.When you finish listening,press to confirm or to continue set up.Note:Monitor will time out after five seconds if oris notpressed.Push-to-Talk Timeout TimerTo prevent accidental transmissions and save battery life,the radio emits a continuous warning tone and stops transmitting if you press for 60continuous seconds.Menu OptionsSelecting the ChannelYour radio has 22channels.The channel is the frequency your radio uses to transmit.(See Channels and Frequencies table below.)1.and release.The channel number flashes.2.select a channel.3.orto continue set up.For More InformationFor further information,you may call Motorola at 1-800-638-5119(U.S.),e-mail us at ************************or visit us on the Internet at .Setting and Transmitting Call TonesYour radio can transmit different call tones to other radios in your group so you can alert them that you want to talk.You have 10call tones from which to choose.To set a call tone:1.With the radio on,short pressuntil the The current call tone setting flashes.2.change and hear the call tone.3.set the new call tone orto continue set up.To call tone to other radios set to the same channel as your radio,Note:Setting to 0disables the call tone feature.Keypad TonesYou may enable or disable the speaker key tones.You will hear the key tone each time a button is pushed.1.Press The current setting On/Off will flash.2.Press turn On or Off.3.Press to continue set up.Note:When the key tone feature is off,the following are not disabled:•Transmit timeout alert tone •Power-down alert tone •Low battery alert tone•The transmitted talk confirmation toneTransmitting a Talk Confirmation ToneYou can set your radio to transmit a unique tone when you finishtransmitting.It is like saying “Roger”or “Over”to let others know you are finished talking.1.With the radio on,short press until appears.The current setting On/Off flashes.2.turn On or Off.3.the talk confirmation tone or to continue set Auto Power On/OffYour radio will save power by automatically turning itself off if unused after a predetermined amount of time.1.Activate this setting by short pressing until displays.The (0,30,60,90)will flash.2.set the time to 30minutes,60minutes or 903.When you exit the Menu mode,the setting timer will begin if you are not using the radio.4.The screen shows5.Press to confirm or to continue set up.Call (PTT)Scroll•ANATEL ANNEX to Resolution No.303of July 2,2002“Regulation of limitation of exposure to electrical,magnetic and electromagnetic fields in the radio frequency range between 9KHz and 300GHz”.To ensure optimal radio performance and make sure human exposure to radio frequency electromagnetic energy is within the guidelines set forth in the above standards,always adhere to the following procedures.Portable Radio Operation and EME ExposureAntenna CareUse only the supplied or an approved replacement antenna.Unauthorized antennas,modifications,or attachments could damage the radio and may violate FCC regulations.Do NOT hold the antenna when the radio is “IN USE.”Holding the antenna affects the effective range.Body-Worn OperationTo maintain compliances with FCC/Health Canada RF exposureguidelines,if you wear a radio on your body when transmitting,always place the radio in a Motorola-supplied or approved clip,holder,holster,case or body harness for this e of non-Motorola-approved accessories may exceed FCC/Health Canada RF exposure guidelines.If you do not use one of the Motorola-supplied or approved body-worn accessories and are not using the radio held in the normal useposition,ensure the radio and its antenna are at least 1inch (2.5cm)from your body when transmitting.Data OperationIf applicable,when using any data feature of the radio with or without an accessory cable,position the radio and its antenna at least one inch (2.5cm)from the body .Approved AccessoriesFor a list of approved Motorola accessories,visit out Web site at .Electromagnetic Interference/CompatibilityNote:Nearly every electronic device is susceptible to electromagnetic interference (EMI)if inadequately shielded,designed or otherwise configured for electromagnetic compatibility.This device complies with Part 15of the FCC Rules.Operation is subject to the following two conditions:1.This device may not cause harmful interference;and 2.This device must accept any interference received,including interference that may cause undesired operation.FacilitiesTo avoid electromagnetic interference and/or compatibility conflicts,turn off your radio in any facility where posted notices instruct you to do so.Hospitals or health care facilities may be using equipment that is sensitive to external RF energy.AircraftWhen instructed to do so,turn off your radio when onboard on aircraft.Any use of a radio must be in accordance with applicable regulations per airline crew instructions.Medical Devices –PacemakersThe Advanced Medical Technology Association recommends that a minimum separation of 6inches (15cm)be maintained between a handheld wireless radio and a pacemaker.These recommendations are consistent with the independent research by andrecommendations of the U.S.Food and Drug Administration.People with pacemakers should:•ALWAYS keep the radio more than 6inches (15cm)from their pacemaker when the radio is turned ON.•Not carry the radio in the breast pocket.•Use the ear opposite the pacemaker to minimize the potential for interference.•Turn the radio OFF immediately if there is any reason to suspect that interference is taking place.Medical Devices –Hearing AidsSome digital wireless radios may interfere with some hearing aids.In the event of such interference,you may want to consult your hearing aid manufacturer to discuss alternatives.Medical Devices -OtherIf you use any other personal medical device,consult themanufacturer of your device to determine if it is adequately shielded from RF energy.Your physician may be able to assist you in obtaining this information.Safety and General Use While DrivingCheck the laws and regulations regarding the use of radios in the area where you drive,and always obey them.If you do use your radio while driving,please:•Give full attention to driving and to the road.•Use hands-free operation,if available.•Pull off the road and park before making or answering a call if driving conditions so require.The use of a two-way radio while engaged in activities requiringconcentration may cause distraction or otherwise impair your ability to safely participate in such activities.Always use technology safely.Do not place a portable radio in the area over an air bag or in the air bag deployment area.Air bags inflate with great force.If a portable radio is placed in the air bag deployment area and the air bag inflates,the radio may be propelled with great force and cause serious injury to occupants of the vehicle.Potentially Explosive AtmospheresTurn off your radio prior to entering any area with a potentially explosive atmosphere.Only radio types that are especially qualified should be used in such areas as “Intrinsically Safe.”Do not remove,install or charge batteries in such areas.Sparks in a potentially explosiveatmosphere can cause an explosion or fire resulting in bodily injury or even death.Note:The areas with potentially explosive atmospheres referred to above include fueling areas such as below decks on boats,fuel or chemical transfer or storage facilities,areas where the air contains chemicals or particles (such as grain,dust or metal powders)and any other area where you would normally be advised to turn off your vehicle engine.Areas with potentially explosive atmospheres are often—but not always—posted.Blasting Caps and AreasTo avoid possible interference with blasting operations,turn off your radio when you are near electrical blasting caps,in a blasting area,or in areas posted “Turn off two-way radios.”Obey all signs and instructions.Operational CautionsAntennasDo not use any portable radio that has a damaged antenna.If a damaged antenna comes into contact with your skin,a minor burn can result.BatteriesAll batteries can cause property damage and/or bodily injury such as burns if a conductive material—like jewelry,keys or beaded chains—touch exposed terminals.The conductive material may complete an electrical circuit (short circuit)and become quite hot.Exercise care in handling any charged battery,particularly when placing it inside a pocket,purse or other container with metal objects.Exercise care when removing NiMH or AAA batteries.Do not use sharp or conductive tools to remove either of these batteries.Battery Charger Safety Instructions:Save these Instructions1.Do not expose the charger to rain or snow.2.Do not operate or disassemble the charger if it has received a sharp blow,or has been dropped or damaged in any way.3.Never alter the AC cord or plug provided with the unit.If the plug will not fit the outlet,have the proper outlet installed by a qualified electrician.An improper condition can result in a risk of electric shock.4.To reduce the risk of damage to the cord or plug,pull the plug rather than the cord when disconnecting the charger from the AC receptacle.5.To reduce the risk of electric shock,unplug the charger from the outlet before attempting any maintenance or cleaning.e of an attachment not recommended or sold by Motorola may result in a risk of fire,electric shock or personal injury.7.Make sure the cord is located so it will not be stepped on,tripped over or subjected to damage or stress.8.An extension cord should not be used unless absolutely e of an improper extension cord could result in a risk of a fire and/or electric shock.If an extension cord must be used,make sure that:•The pins on the plug of the extension cord are the same number,size and shape as those on the plug of the charger.•The extension cord is properly wired and in good electrical condition.•The extension cord size is 18AWG for lengths up to 100feet,and 16AWG for lengths up to 150feet.9.The supply cord of the AC adaptor cannot be replaced.If the cord is damaged,call customer service at 1-800-638-5119or e-mail us at ************************.Your Motorola radio operates on General Mobile Radio Service (GMRS)frequencies and is subject to the Rules and Regulations of the Federal Communications Commission (FCC).The FCC requires that all operators using GMRS frequencies obtain a radio license before operating their equipment.To obtain the FCC forms,please visit the FCC’s Web site at /uls/index.htm?job=home to source form 605and 159,which includes all the instructions you will need.If you wish to have the document faxed or mailed,or if you have questions,please use the following contact information:Changes or modifications not expressly approved by Motorola may void the user’s authority granted by the FCC to operate this radio and should not be made.To comply with FCC requirements,transmitter adjustments should be made only by or under the supervision of a person certified as technically qualified to perform transmitter maintenance and repairs in the private land mobile and fixed services as certified by an organization representative of the user of those services.Replacement of anytransmitter component (crystal,semiconductor,etc.)not authorized by the FCC equipment authorization for this radio could violate FCC rules.Note:Use of this radio outside the country where it was intended to be distributed is subject to government regulations and may be prohibited.–Battery Meter –Scan–Transmitting –Receiving –Auto Power On/Off –Talk Confirmation Tone (Roger Beep)–Volume–Lock–Call Tone,Keypad Tone–On/Off for each feature Numbers Call TonesContinued on backMB SeriesPTT PTTRemoving the NiMH Battery Pack (Optional Accesory)1.Turn the radio off.2.With the back of the radio facing you,lift the battery latch up torelease the battery cover and remove the cover.3.Gently remove the NiMH battery by easing it out.4.Reposition the battery cover and press down to secure.Removing the Three AAA Alkaline Batteries1.Turn the radio off.2.With the back of the radio facing you,lift the battery latch up torelease the battery cover and remove the cover.3.Remove each alkaline battery by easing each battery outindividually.4.Reposition the battery cover and press down to secure.Notes:•Excercise care when removing NiMH or AAA batteries.Do not use sharp or conductive tools to remove either of these batteries.•Remove the batteries before storing your radio for extended periods of time.Batteries corrode over time and may cause permanent damage to your radio.Using the Plug-in Charging Adaptor (Optional Accesory)The battery plug-in charger (adaptor)provides charging convenience for NiMH batteries in one or both radios.Charge the NiMH battery overnight (at least 16hours)before using it for the first time.After the initial charge,an empty battery is fully charged within 14hours.1.Follow the steps above to install a NiMH battery pack.2.Connect the AC power adaptor plug into the recharging jack at the bottom (right)of the radio.(The adaptor charges two radios.)3.Plug the AC power supply into a standard wall outlet.Notes:•The light will remain red after the battery pack is fully charged.•When moving between hot and cold temperatures,do not charge the battery until the battery temperature acclimates (usually about 20minutes).•For optimal battery life,unplug the charging adaptor within 16hours.Do not store the radio while connected to the charger.•When your radio is plugged into the AC power adaptor,your radio will automatically power off.Low Battery AlertIn addition to your battery meter showing how much battery power you have,your radio will beep to alert you to the fact that your batteries are low.Turning Your Radio On and Off1.To turn on,press and hold until a channel number appears and the radio beeps.2.To turn off,press and holduntil the display goes blank.Volume Press increase or to decrease the volume.The volume level VOL Audio PTTChannels and FrequenciesPTT PTTPTT PTT PTT PTT PTT JackThe MB Series is approved for use in the US only.MB SeriesPatent and Copyright InformationManufactured,distributed or sold by Giant International Ltd.,official licensee for this product.Motorola,the Stylized M Logo,and other Motorola trademarks and trade dress are owned by Motorola,Inc.and are used under license from Motorola,Inc.MOTOROLA and the Stylized M Logo are registered in the US Patent &Trademark Office.All other product or service names are the property of their respective owners.©Motorola,Inc.2010.All rights reserved.Please contact customer service at 1-800-638-5119or e-mail us at ************************for questions/comments,warranty,support or service related to this product.Keypad LockTo avoid accidentally changing your radio settings you can lock your keypad:1.Short pressuntil appears.The current setting On/Off will 2.Pushturn On or Off.3.Theon your screen.When in lock mode,you cannot adjust the volume,but all other functions work as usual.To unlock the radio,press and holdfor a few seconds.Scanning ChannelsUse scanning to monitor channels for transmissions or to find someone in your group who has accidentally changed channels.1.Briefly press until appears.The current setting On/Off will flash.2.Press to turn On or Off.3.Pressto confirm or to continue set up.When the radio detects channel activity,it stops scanning and you can hear the transmission.To respond,press within five seconds.Advanced ScanIf the radio stops on an undesired you may immediately resume the scan by briefly Use With AccessoriesYou can transmit more reliably with the use of optional PTT headset accessories.A PTT headset allows privacy to others around you while listening.Many accessories (sold separately)are available for your radio.For more information,visit our Web site at or .1.Turn the radio off and plug the PTT accessory into the accessory jack.2.Turn the radio on.You may now press the PTT on the accessory microphone instead of the radio.3.Adjust the volume appropriately by pressingLower the volume before placing the accessory on your head or in your ear.Note:The MB Series does not have VOX capabilities,and is only compatible with PTT headset accessories.PTTPTT。

∗基金项目:国家自然科学基金(U1733101,U1933201)0引言脑电信号是脑神经细胞电活动在头皮表面或大脑皮层表现出的电现象,其包含了大量的与人类活动密切相关的生理信息,通过按照一定规则放置在头皮不同位置的电极提取脑电信号并绘制成一系列时间的曲线就是通常所说的脑电图(Electroencephalogram ,EEG)[1]。

飞行是一种高负荷作业,对飞行员的心理素质特别是认知能力要求很高,有研究表明从脑电信号中获得的专注度参数能良好地反馈心理评价指标,对飞行训练有重要的参考价值[2-3]。

由于飞行员日常模拟训练一般在高负荷仿真环境座舱内进行,单次训练持续时间较长,而传统的脑电采集设备体积较大、价格昂贵并且使用条件较为苛刻,不能满足这些特殊的应用需求。

因此,本文设计了一种低功耗、小型化、易使用的无线脑电监测系统。

1总体设计系统由脑电采集、无线平台和PC 端三部分组成,脑电采集使用TGAM 模块,输出的脑电信号通过串口传输到Nordic 2.4G 超低功耗无线平台,其中无线传输模块nRF24LE1可将串口接收的脑电信号经内嵌的射频核心L01无线发送至PC 端,PC 端通过无线接收器nRF24LU1接收数据,其内部的射频端首先接收射频信号,然后再将数据转发至USB 控制器,此时PC 通过API 函数与驱动程序访问USB 控制器从而获取无线传输过来的脑电数据并实时显示与存储。

系统总体结构如图1所示。

2硬件设计2.1脑电采集硬件设计TGAM 是NeuroSky 公司的脑电模块,其内部集成了模拟前端和数字信号处理结构,最大10mV 的系统输入基于TGAM 的无线脑电监测系统∗丛林,马进,胡文东,程珊,张太辉(空军军医大学航空航天医学系,陕西西安710032)摘要:针对飞行人员日常模拟训练时监测装置便携式、无线化的特殊要求,设计并实现了一种基于脑波模块TGAM 的无线脑电监测系统。

采用Nordic 2.4G 超低功耗无线平台,实现了采集设备与监测电脑之间的无线传输。

全息投影手环的作文英语英文：As a tech enthusiast, I have always been fascinated by the idea of holographic technology. And when I first got my hands on a holographic projection bracelet, I wasabsolutely blown away by its capabilities. The holographic projection bracelet, or "hologram wristband" as some people call it, is a revolutionary piece of technology that hasthe potential to change the way we interact with the world around us.One of the most amazing things about the holographic projection bracelet is its ability to project 3D images and videos right onto the user's wrist. This means that you can literally have a holographic display right in front of your eyes, without the need for any bulky screens or devices. Imagine being able to watch a holographic movie or play a holographic game, all from the comfort of your own wrist.It's like something straight out of a science fiction movie!But the holographic projection bracelet isn't just about entertainment. It also has practical applicationsthat can make our lives easier and more convenient. For example, imagine being able to project a virtual keyboard onto your wrist, allowing you to type and send messages without needing a physical keyboard or touchscreen. Or imagine being able to project a map or directions right onto your wrist, making it easier to navigate and find your way around.Of course, the holographic projection bracelet is still in its early stages, and there are some limitations to its capabilities. For example, the quality of the holographic images and videos is not yet as high as traditional displays, and the battery life of the bracelet can be quite limited. However, as technology continues to advance, these limitations are likely to be overcome, and we may soon see holographic projection bracelets becoming a common and indispensable part of our daily lives.In conclusion, the holographic projection bracelet isan incredibly exciting piece of technology that has the potential to revolutionize the way we interact with the world around us. Its ability to project 3D images andvideos right onto the user's wrist is truly mind-blowing, and its practical applications are endless. I can't wait to see how this technology develops in the future, and I'm excited to be a part of the holographic revolution.中文：作为一个科技爱好者，我一直对全息技术的概念深感着迷。

MANUFACTURING AND PROCESS | 制造与工艺1　引言加快推动绿色低碳技术实现“双碳”目标，汽车零部件材料的轻量化是重要发展方向。

近几年国内逐步加强和推行限塑令，汽车内饰塑料件产品的使用将趋于减弱，而麻纤维制品因其高强度、高耐磨、来源广、易降解等优点，逐渐在汽车内饰材料中取代了塑料等制品，成为汽车内饰件环保、超高轻量化的新一代理想材料[1]。

麻纤板是由麻类天然纤维制成的板材，麻纤板的成分主要包括麻纤维、粘合剂和填充物等。

麻纤维是麻纤板的主要成分之一，常用于制作纤维增强复合材料[2]。

本实验研究以可回收再利用的新型麻纤维环保材料（即聚丙烯和木粉的混合物）为实验材料。

为研究热压参数对减薄率的影响，本文设计了杯突实验，杯突试验应用于板材成形性能研究、热压工艺模拟和成型工艺参数研究和评估等领域，是具有普遍意义的模拟试验方法之一。

通过杯突实验得到麻纤板的减薄模型，通过此减薄模型来预测热压过程缺陷发生点，进而能在热压之前做出预防措施。

还可以根据热压后的板材厚度来设计注塑的浇口与流道，大大提高成品率。

因此，麻纤板在杯突实验中的减薄率测量研究对热压-注塑一体化成形工艺有着十分重要的意义[3-4]。

2　实验为研究热压参数对麻纤板的减薄率的影响并建立减薄预测模型，本文设计了两组实验。

一组为温度与热压速度对麻纤板减薄率的影响研究，另一组为热压行程对麻纤板减薄率的影响研究。

在温度与热压速度对麻纤板减薄率的影响研究实验中，本文根据麻纤板的热压条件设计了四个温度点和四种热压速度，研究了麻纤板在热压出现裂口时，裂口处的减薄率，并建立了减薄预测模型。

在热压行程对麻纤板减薄率的影响研究中，设计了在特定温度与热压速度下不同热压行程下麻纤板减薄率的测量实验，得到了减薄预热压工艺参数对麻纤板减薄率影响分析丁宏参1　候庆江２　刘赛科1　王一栋1　吴贤益11.宁波方正汽车模具股份有限公司　浙江省宁波市　3156002.华中科技大学　湖北省武汉市　430074摘 要：麻纤维制品因其高强度、高耐磨、来源广、易降解等优点，成为汽车内饰件环保、超高轻量化的新一代理想材料。

In recent years,the concept of a robot doctor has become a topic of interest and debate.These are AIpowered machines designed to assist or even replace human doctors in certain medical tasks.The idea of robot doctors brings with it a mix of excitement and apprehension.Here,we will explore the potential benefits and drawbacks of having robot doctors in the healthcare system.Benefits of Robot Doctors:1.Efficiency and Speed:Robot doctors can perform certain diagnostic tasks faster than humans,potentially reducing wait times for patients and allowing for quicker treatment.2.Precision:Robots can be programmed to follow protocols with high accuracy,which can lead to more precise diagnoses and treatments.3.Availability:Unlike human doctors,robots do not require rest and can work around the clock,providing constant care in hospitals and clinics.4.Reduced Risk of Infection:Robots can be sterilized easily and do not carry human pathogens,which can be particularly beneficial in environments where infection control is critical.5.CostEffectiveness:Over time,the use of robot doctors could reduce the cost of healthcare by decreasing the need for human labor and by preventing human error that can lead to costly medical malpractice suits.6.Specialized Tasks:Robots can be designed for specific medical tasks,such as performing surgery with high precision or assisting in complex procedures,which can improve patient outcomes.Drawbacks of Robot Doctors:ck of Empathy:One of the most significant concerns is that robots lack the human touch.They cannot empathize with patients or provide the emotional support that is often an essential part of the healing process.2.Ethical Concerns:There are ethical questions about the extent to which robots should be involved in patient care,especially in lifeordeath decisions.3.Dependency on Technology:Overreliance on robot doctors could lead to a decrease in the skills of human doctors,as they may become less practiced in certain procedures.4.Cost of Implementation:The initial cost of developing and implementing robot doctors can be high,and not all healthcare facilities may be able to afford such technology.5.Data Privacy:The use of AI in healthcare raises concerns about patient data privacy and the potential misuse of sensitive medical information.6.Technical Failures:As with any technology,there is a risk of system failures or errors, which could have serious consequences in a medical context.7.Job Displacement:The introduction of robot doctors could lead to job losses for human healthcare professionals,which is a social and economic concern.In conclusion,while robot doctors offer the promise of improved efficiency,precision, and availability in healthcare,they also present challenges that must be carefully considered.The integration of such technology into the healthcare system should be done with a focus on complementing human care,rather than replacing it,to ensure that the benefits are maximized while mitigating the potential drawbacks.。

In the era of smartphones,social gatherings have taken on a new dimension.The ubiquitous presence of these devices has both enriched and complicated the dynamics of social interactions.The Ubiquity of Smartphones:Smartphones have become an integral part of our lives,serving as a hub for communication,entertainment,and information.They are so prevalent that its rare to see a gathering where at least one person isnt checking their device.This has led to a shift in how we interact with one another,often blending the digital and the physical realms.Enhanced Communication:On one hand,smartphones have made it easier to stay connected.Before a gathering,we can easily coordinate through group chats,share locations,and even send reminders. During the event,they can be used to take photos,share updates on social media,and even facilitate games or activities that require digital interaction.Distractions and Disconnects:However,the constant presence of smartphones can also be a source of distraction. Conversations can be interrupted by notifications,and the temptation to check for updates or messages can lead to a lack of engagement in the present moment.This can create a sense of disconnect,where people are physically present but mentally elsewhere.The Impact on Social Skills:The reliance on smartphones during social gatherings may also affect our social skills. Facetoface interactions are essential for developing empathy,reading body language,and understanding social cues.When we are preoccupied with our devices,we miss out on these learning opportunities and may become less adept at navigating social situations. Balancing the Use of Technology:To make the most of social gatherings in the smartphone era,its important to strike a balance.Setting boundaries,such as designating phonefree zones or times,can encourage more meaningful interactions.Additionally,using technology to enhance the social experience,rather than detract from it,can help maintain the essence of human connection.The Role of the Host:Hosts play a crucial role in setting the tone for gatherings.By encouraging guests to engage with one another and limiting the use of smartphones,hosts can foster a more intimate and enjoyable atmosphere.This might involve organizing activities that require group participation or simply leading by example and being present in the conversation.Conclusion:While smartphones offer numerous benefits,they also present challenges in the context of social gatherings.By being mindful of their impact and making conscious decisions about their use,we can ensure that technology serves to enhance,rather than diminish, our social experiences.The key is to find a balance that allows us to enjoy the best of both worldsthe convenience and connectivity of smartphones and the warmth and depth of human interaction.。

我发明了隐形书包的作文英文回答:Invention of the Invisible Backpack.I have recently invented a revolutionary product called the Invisible Backpack. This backpack is unlike any other backpack on the market, as it is completely invisible to the naked eye. It is a groundbreaking invention that has the potential to change the way we carry our belongings.The Invisible Backpack is made using advanced technology that allows it to blend seamlessly with its surroundings. It is constructed using a special material that is transparent and lightweight, making it virtually undetectable. This means that when you wear the Invisible Backpack, it appears as if you are not carrying anything at all.One of the main advantages of the Invisible Backpack isits ability to provide convenience and security. With this backpack, you can carry your belongings without drawing attention to yourself. This is especially useful in crowded places or when traveling, as it reduces the risk of theft or pickpocketing. You can easily keep your valuables safe without worrying about them being stolen.Furthermore, the Invisible Backpack is incredibly versatile. It has multiple compartments and pockets, allowing you to organize your belongings efficiently. You can easily store your laptop, books, water bottle, and other essentials without compromising on space. The backpack also has adjustable straps for a comfortable fit, ensuring that you can carry it for extended periods without any discomfort.Another unique feature of the Invisible Backpack is its waterproof and durable design. The special material used in its construction is not only transparent but also resistant to water and wear. This means that you can use the backpack in any weather condition without worrying about your belongings getting wet or damaged. It is a reliable andlong-lasting product that can withstand the test of time.中文回答:隐形书包的发明。

疯狂英语(新悦读)A new s m ar t m anm ade s ki n t hat can r epai r i t s el f i n l es s t han a s econd l i ke t he cybor g (半人半机器的生物)i n t he f i l m Ter m i nat or has been devel oped.The el ect r oni c s ki n,or e ⁃s ki n,i s j us t as s t r ong and s ens i t i ve as hum an s ki n and coul d be us ed t o m oni t or a per s on ’s heal t h or t he s t r uct ur al condi t i on of an ai r pl ane,s ay s ci ent i s t s .W hi l e i t i s not t he f i r st t i m e sci ent i s t s have t r i ed t o “el ect r oni cal l y ”copy hum an s ki n,pr evi ous at t em pt s have f al l en s hor t .Thi s e ⁃ski n pr ot ot ype (原型)can sens e obj ect s f r om up t o ei ght i nches away,r eact t o t hi ngs i n under one t ent h ofa second and r epai r i t s el f m or e t han 5,000t i m es ,accor di ng t o t he r es ear cher s.St udy aut hor D r Y i chen Cai ,of K i ng A bdul l ah U ni ver si t y of Sci ence and Technol ogy i n Saudi A r abi a,s ai d,“The i deal e ⁃s ki n wi l l i m i t at e t he m any nat ur al f unct i ons of hum an s ki n,s uch as s ens i ng t em per at ur e and t ouch,accur at el y and i n r eal t i m e.H ow ever,m aki ng s ui t abl y f l exi bl e el ect roni cs t hat can per f or m such del i cat e t as ks i n everyday l i f e i s chal l engi ng,and each m at er i al i nvol ved m us tbe caref ul l y engi neered.”A t t he s am e t i m e,i t i s hi ghl y sens i t i ve,t o t he poi nt wher e i t can di s t i ngui s h handwr i t i ng w r i t t en on i t s s ur f ace and wi t hs t and 5,000def or m at i ons (变形),r ecover i ng i n abouta quar t er of a s econd.你有没有想过,如果有一天,你的皮肤受到伤害了,比如被刀划伤了,或者被烫伤了,它会自动修复?你肯定会觉得这不可思议。

Philips MonitorUSB-C monitor5000 series27" (68.6 cm)2560 x 1440 (QHD)27E1N5600AESimplify your connectionswith USB-CThis Philips USB-C multipurpose monitor offers clutter-free setup. With a single cable youcan view smooth high-resolution video, transfer data, and charge your laptop. A true hubfor mobile professionals.Single cable USB-C connection•Connect your notebook with one USB-C cableSuperb Picture Quality•IPS LED wide view technology for image and color accuracy•Crystalclear images with Quad HD 2560 x 1440 pixels•1ms (MPRT) fast response for crisp image and smooth gameplay•SmartImage game mode optimized for gamers•SmartContrast for rich black detailsFeatures designed for you•LowBlue mode and Flicker-free easy-on-the eyes viewing•Built-in stereo speakers for multimedia•Tilt, pivot and height-adjust for an ideal viewing position•EasyRead mode for a paper-like reading experience•Cable management reduces cable clutter for neat workspace•EasySelect menu toggle key for quick on-screen menu accessHighlightsUSB-C connectionThis Philips display features a USB type-C connector with power delivery. Withintelligent and flexible power management, you can power charge your compatible device directly. Its slim, reversible USB-C allows for easy, one-cable connection. You can watch high resolution video and transfer data at a super-speed, while powering up and re-charging your compatible device at the same time.1ms MPRT fast responseMPRT (motion picture response time) is more intuitive way to describe the response time, which directly refers the duration from seeing blurry noise to clean and crisp images. Philips gaming monitor with 1 ms MPRT effectively eliminates smearing and motion blur, delivers shaper and precise visuals to enhance gaming experience. Best choice for playing thrilling and twitch-sensitive games.Crystalclear imagesThese Philips screens deliver Crystalclear, Quad HD 2560x1440 or 2560x1080 pixel images. Utilizing high performance panels with high density pixel count, enabled by high bandwidth sources like USB-C, Displayport, HDMI, these new displays will make your images and graphics come alive. Whether you are demanding professional requiringextremely detailed information for CAD-CAM solutions, using 3D graphic applications or a financial wizard working on huge spreadsheets, Philips displays will give you Crystalclear images.SmartImage Game modeThe new Philips gaming display has quick access OSD fine tuned for gamers, offering you multiple options. "FPS" mode (First person shooting) improves dark themes in games, allowing you to see hidden objects in dark areas. "Racing" mode adapts display with fastest response time, high color, along with image adjustments. "RTS" mode (Real time strategy) has a special SmartFrame mode which enables highlighting of specific area and allows for size and image adjustments. Gamer 1 and Gamer 2 enable you to save personalcustomized settings based on different games, ensuring best performance.LowBlue Mode & Flicker-freeOur LowBlue Mode and Flicker-freetechnology have been developed to reduce eye strain and fatigue often caused by long hours in front of a monitor.Built-in stereo speakersA pair of high quality stereo speakers built into a display device. It can be visible front firing, or invisible down firing, top firing, rear firing, etc depending on model and design.Compact Ergo BaseThe Compact Ergo Base is a people-friendly Philips monitor base that tilts, pivot and height-adjusts so each user can position the monitorfor maximum viewing comfort and efficiency.Issue date 2023-09-13 Version: 3.1.112 NC: 8670 001 80248 EAN: 87 12581 78340 2© 2023 Koninklijke Philips N.V.All Rights reserved.Specifications are subject to change without notice. Trademarks are the property of Koninklijke Philips N.V. or their respective owners.SpecificationsPicture/Display•LCD panel type: IPS technology•Backlight type: W-LED system•Panel Size: 27 inch / 68.6 cm•Display Screen Coating: Anti-Glare, 3H, Haze 25%•Effective viewing area: 596.736 (H) x 335.664 (V)•Aspect ratio: 16:9•Maximum resolution: 2560 x 1440 @ 75 Hz*•Pixel Density: 108.79 PPI•Response time (typical): 4 ms (Gray to Gray)*•MPRT:1ms•Brightness: 300 cd/m²•Contrast ratio (typical): 1000:1•SmartContrast: Mega Infinity DCR•Pixel pitch: 0.2331 x 0.2331 mm•Viewing angle: 178º (H) / 178º (V), @ C/R > 10•Flicker-free•Picture enhancement: SmartImage game •Color gamut (typical): NTSC 102.2%*, sRGB 114.18%*•Display colors: 16.7 M•Scanning Frequency: 30 - 114 kHz (H) / 48 - 75 Hz (V)•LowBlue Mode•EasyRead•sRGB•Adaptive syncConnectivity•Signal Input: HDMI 1.4 x 1, DisplayPort 1.2 x 1, USB-C 3.2 Gen 1 x 1 (upstream, Power Delivery up to 65W)•HDCP: HDCP 1.4 (HDMI / DisplayPort / USB-C)•USB:: USB 3.2 x 4 (downstream with 1 fast charge B.C 1.2)•Sync Input: Separate Sync•Audio (In/Out): Audio outUSB•USB-C: Reversible plug connector•Super speed: Data and Video transfer•DP: Built-in Display Port Alt mode•Power delivery: USB PD version 3.0•USB-C max. power delivery: Up to 65W (5V/3A, 9V/3A, 10V/3A, 12V/3A, 15V/3A, 20V/3.25A) Convenience•Built-in Speakers: 3 W x 2•User convenience:Power On/Off, Menu, Volume, Input, SmartImage Game•OSD Languages: Brazil Portuguese, Czech, Dutch, English, Finnish, French, German, Greek, Hungarian, Italian, Japanese, Korean, Polish, Portuguese, Russian, Simplified Chinese, Spanish, Swedish, Traditional Chinese, Turkish, Ukrainian •Other convenience: Kensington lock, VESA mount(100x100mm)•Plug & Play Compatibility: DDC/CI, Mac OS X,sRGB, Windows 10 / 8.1 / 8 / 7Stand•Height adjustment: 130 mm•Pivot: -/+ 90 degree•Tilt: -5/20 degreePower•On mode: 29.1 W (typ.)•Standby mode: 0.5 W (typ.)•Off mode: 0.3 W (typ.)•Energy Label Class: F•Power LED indicator: Operation - White, Standbymode- White (blinking)•Power supply: Internal, 100-240VAC, 50-60HzDimensions•Product with stand(max height): 614 x 510 x212 mm•Product without stand (mm): 614 x 365 x 52 mm•Packaging in mm (WxHxD): 780 x 525 x 186 mmWeight•Product with stand (kg): 6.56 kg•Product without stand (kg): 4.70 kg•Product with packaging (kg): 10.64 kgOperating conditions•Temperature range (operation): 0 to 40 °C•Temperature range (storage): -20 to 60 °C•Relative humidity: 20%-80 %•Altitude: Operation: +12,000ft (3,658m), Non-operation: +40,000ft (12,192m)•MTBF: 50,000 hrs (excluding backlight) hour(s)Sustainability•Environmental and energy: RoHS•Recyclable packaging material: 100 %•Specific Substances: Mercury free, PVC / BFR freehousingCompliance and standards•Regulatory Approvals: CB, CE Mark, CU-EAC,EAEU RoHS, FCC Class B, ICES-003, TUV/ISO9241-307, TUV-BAUARTCabinet•Color: Black•Finish: TexturedWhat's in the box?•Monitor with stand•Cables: HDMI cable, USB-C to USB-C cable,Power cable•User Documentation*"IPS" word mark / trademark and related patents on technologiesbelong to their respective owners.*The maximum resolution works for either HDMI input or DP input.*For best output performance, please always ensure that your graphiccard is capable of achieving the maximum resolution and refresh rateof this Philips display.*Response time value equal to SmartResponse*MPRT is to adjust brightness for blur reduction, so cannot adjustbrightness while MPRT is turned on. To reduce motion blur, LEDbacklight will strobe synchronously with screen refresh, which maycause noticeable brightness change.*MPRT is gaming-optimized mode. Turn on MPRT may causenoticeable screen flickering. It is recommended to turn off when youare not using the gaming function.*NTSC Area based on CIE1976*sRGB Area based on CIE1931*For USB-C power and charging function, your Notebook/devicemust support USB-C standard Power Delivery specifications. Pleasecheck with your Notebook user manual or manufacturer for moredetails.*For Video transmission via USB-C, your Notebook/device mustsupport USB-C DP Alt mode*The monitor may look different from feature images.。