Captura使用说明教学文案

C a p t u r a使用说明Capture录屏软件使用说明1、安装：a）打开金麒麟安全助手，搜索关键字Capture，找到软件点击安装，默认安装路径：C:\Program Files (x86)\Captura 该路径安装时无法直接更改。

b）安装后在桌面会生成两个快捷方式：Captura 和 Captura使用说明，图标样式如下：使用说明在读完之后可随时删除，软件运行快捷方式建议保留，快捷方式如果不小心全部删除，请到默认安装路径中查找。

2、使用：2.1 打开软件：双击桌面上的Captura快捷方式，打开软件，软件默认为英语界面，可参照2.2变更为中文界面2.2切换中文界面：2.3设置插件路径：录制MP4格式时，可能会提示选择插件，点击右上角的设置按钮，进入FFmpeg设置界面，选择FFmpeg.exe的放置目录即可。

FFmpeg.exe默认放在软件的安装路径下，选择前可到目录中确认，如果缺失，请参照1安装重新安装一下软件。

2.4开始录屏：开始录屏前，先进行设置A.录制动作选择建议选择光标、鼠标点击、键盘三项，视频录制后可看出录制时的操作动作。

B.视频源选择：1：仅录制音频；2：录制电脑上的所有屏幕，如果有多个显示器会一起录制；3：选择一个录制的显示器，如果有多个显示器，需要选择一个需要录制的显示器，其他显示器不会被录制；4：选择一个录制的窗口；5：定制一个录制的区域。

C.视频编码器选择：建议选择FFmpeg，录制MP4格式视频，FPS建议：10，质量建议：70% ，FPS越高，视频文件越大，但是视频流畅性越好，如果对流畅性有要求，可将FPS调整至24，FPS数值翻倍意味着视频大小也会翻倍。

D.输出目录选择：输出目录代表视频存放位置，可自行调整E.开始录制全部设置完毕后，点击左上角红色按钮，开始录制，红色圆形按钮变为红色方形按钮代表正在录制。

录制过程中如果有事情离开可点击暂停按钮，回来后再点击一下暂停即可恢复录制。

Qcapture pro软件操作说明目录硬件驱动安装 (2)软件程序安装 (6)软件使用说明 (16)1．文件菜单 (17)2．编辑菜单 (17)3．获得菜单 (21)4．序列菜单 (25)5．提高菜单 (26)6．进程菜单 (29)7．措施菜单 (33)8．窗口菜单 (37)9．帮助菜单 (38)这个介绍将帮助你在Windows 98和Windows Me系统下安装软件和摄像头驱动程序1关闭计算机或者拔下摄像头2运行我们的安装程序（QCapture Suite installer）（必须登陆Administrator privileges安装本软件驱动程序）3打开你的摄像头如果你是第一次安装这个摄像头的驱动程序，你需要等待提示为"Building driver information database"的对话框完成安装。

你已经完成此摄像头在Windows 98和Windows Me系统下的安装。

这个介绍将帮助你在Windows 2000系统下安装软件和摄像头驱动程序1关闭计算机或者拔下摄像头2运行我们的安装程序（QCapture Suite installer）（必须登陆Administrator privileges安装本软件驱动程序）3打开你的摄像头4插入光盘并打开驱动安装程序（1）如果你是第一次安装这个摄像头的驱动，你必须做这个第四步骤（2）每一次你在这个系统下添加新的摄像头，你需要重新修复这个安装程序（3）如果你已经在这个驱动下使用过这个摄像头，这个程序只是一个升级的补丁，可以不安装此步骤在你插入摄像头几秒以后，系统将提示你找到硬件和驱动程序。

（如果系统比较慢，请稍等30秒种）Windows 2000系统将提示你这个驱动没有签名点击Yes如:图一(图一)你已经完成此摄像头在Windows 2000系统下的安装。

这个介绍将帮助你在XP Professional系统下安装软件和摄像头驱动程序1关闭计算机或者拔下摄像头2运行我们的安装程序（QCapture Suite installer）（必须登陆Administrator privileges安装本软件驱动程序）3打开你的摄像头4插入光盘并打开驱动安装程序（1）如果你是第一次安装这个摄像头的驱动，你必须做这个第四步骤（2）每一次你在这个系统下添加新的摄像头，你需要重新修复这个安装程序（3）如果你已经在这个驱动下使用过这个摄像头，这个程序只是一个升级的补丁，可以不安装此步骤在你插入摄像头几秒钟后，你会发现系统弹出Found New Hardware Wizard 点击Next 如:图二(图二)系统将通报你这个驱动没有签名点击Continue Anyway 如:图三(图三)完成找到的硬件安装向导你已经完成此摄像头在XP Professional系统下的安装。

captura使用方法Captura是一款免费的屏幕录制和截图工具，它能够帮助用户轻松地记录他们的屏幕和收集他们所需要的截图。

Captura支持多种录制和截图方式，包括矩形、窗口、对象、屏幕、Webcam、音频、鼠标光标等等，用户可以根据需要选择不同的方式进行录制或者截图。

在本文中，我们将会详细介绍如何使用Captura录制和截图，以便让您更好地使用这个工具。

基本录制打开Captura后，您会看到一个带有多个选项卡的界面。

在最顶部的选项卡中，您可以选择您需要的录制模式。

例如，您可以选择录制您的屏幕、Webcam或者您的鼠标光标。

选择相应的模式后，您可以在录制前设置不同的参数选项，例如录制区域的大小、录制的帧率或者使用麦克风进行录音等等。

当您设置好了参数后，点击“录制”按钮即可开始屏幕录制。

录制过程中，您可以在界面中看到绿色的计时器，并可以在录制时使用缩放、笔记、箭头等工具对录制过程进行标注。

录制结束后，您可以将录制后的视频另存为您喜欢的视频格式。

高级录制在Captura中，您还可以使用多种高级录制选项来进行更为精确的录制。

例如，在录制过程中，您可以使用快捷键来暂停、继续、停止录制等操作；您也可以调整录制视频的帧率、码率、分辨率等参数。

截图在Captura中，除了录制视频以外，您还可以使用其截图功能来裁剪和保存屏幕上的内容。

为了进行截图，您需要首先选择您希望截图的选项卡，在顶部选项卡中选择截图模式，然后设置截图区域，执行截图。

在截图完成后，您可以另存截图为您喜欢的图片格式，例如PNG、JPEG等等。

另外，Captura还内置了OCR（光学字符识别）功能，您可以将屏幕上的文本截图以文字形式保存，而不是保存为图片格式。

总结。

Technical DocumentationCAPTURA 100 MIFAREElectronic lock with RFIDCAPTURADescription of Function•The CAPTURA battery-powered electronic lock can be used to lock doors, flaps and drawers that do not require multi-point locking. It is possible to use it as a right or left hand, top or bottom locking lock. Depending on the application, the lock can be fixed either to the case of the cabinet or to the door/drawer front.CAPTURA has locking pockets into which a locking pin engages.• The lock is operated by RFID cards or tags which are held in front of the area in the furniture behind which the CAPTURA lock is located.• With the optional Cover C1 with integrated LED, CAPTURA is also suitable for use with single-sheet steel doors. Suitability for multi-layer doors or omega profiles on request.• With an optional lightpoint pin, the optical signal of the lock can be made visible on the exterior of wooden or HPL doors.• The optional door ejector A1 is spring-loaded and enables use of doors without handles.You can find details regarding scope of applications and environmental conditions on page 2 –…product information“Instruction Manual• The instruction manual is supplied with the product.• Alternatively, you can find the instruction manual on our homepage:/de/service/downloads• Or scan QR-Code on the rightParts of the system CAPTURA 100 MIFARENoteCAPTURA 100 MIFARE Locking pin SD Type A Ejector A1• Spring pin for doorswithout handles*Only in connection with SDtype ALocking pin SD Typ B• Suitable for hinge doorsand drawers• Suitable for sliding doorsand drawers• Fied to the cabinet• Fixed to the cabinet or door/ drawer*Cover C1•Required for use in single-sheetsteel doors• Integrated LED displayLightpoint pin O10.1(dimension see page 4)Lightpoint pin O16.1(dimension see page 4)• Option for non-metallicdoors (except glass)• Door thickness 10-15mm• Option for non-metallicdoors (except glass and HPL)• Door thickness 16-21mm≥ 10 cmInsert the battery. Ensurecorrect polarityUse Cover C1 on single-sheet steel doorsOptional use of the lightpoint fornon-metallic doors.(O10.1 = except glass / O16.1 =except glass and HPL)RFID-cards• Installation, programming,operation etc. byuse of various RFID cards•Configuration and managementalso possible via LEHMANNManagement Software LMSCover C1 Locking pin SD type BLightpoint pin O10.1 Lightpoint pin O16.1Ejector A1 with locking pin SD type ANoteInstallation Examplesinside the cabinet Drawer Cabinet CAPTURA inside the cabinet, locking pin type B on back of the drawer Drawer CabinetCAPTURA on the back of the drawer, locking pin type A inside the cabinetIn general, the use of our lock and locking systems in combination with additional mechanisms is possible.But in individual cases the compatibility has to be checked by the manufacturer. We do not take responsibility for damages due to incompatibility.Depending on the application, CAPTURA can be fitted either on the door / drawer or in the cabinet case. When designing the furniture, please ensure that the area in front of which the lock is mounted is accessible to the user holding an RFID card.RFID-cardRFID-cardBatteries should not be disposed of as household waste. Please dispose of them responsibly by returning them to local collection points, retailers or recycling centres.X。

Capture录屏软件使用说明1、安装：a）打开金麒麟安全助手，搜索关键字Capture，找到软件点击安装，默认安装路径：C:\Program Files (x86)\Captura 该路径安装时无法直接更改。

b）安装后在桌面会生成两个快捷方式：Captura 和 Captura使用说明，图标样式如下：使用说明在读完之后可随时删除，软件运行快捷方式建议保留，快捷方式如果不小心全部删除，请到默认安装路径中查找。

2、使用：2.1 打开软件：双击桌面上的Captura快捷方式，打开软件，软件默认为英语界面，可参照2.2变更为中文界面2.2切换中文界面：2.3设置插件路径：录制MP4格式时，可能会提示选择插件，点击右上角的设置按钮，进入FFmpeg设置界面，选择FFmpeg.exe的放置目录即可。

FFmpeg.exe默认放在软件的安装路径下，选择前可到目录中确认，如果缺失，请参照1安装重新安装一下软件。

2.4开始录屏：开始录屏前，先进行设置A.录制动作选择建议选择光标、鼠标点击、键盘三项，视频录制后可看出录制时的操作动作。

B.视频源选择：1：仅录制音频；2：录制电脑上的所有屏幕，如果有多个显示器会一起录制；3：选择一个录制的显示器，如果有多个显示器，需要选择一个需要录制的显示器，其他显示器不会被录制；4：选择一个录制的窗口；5：定制一个录制的区域。

C.视频编码器选择：建议选择FFmpeg，录制MP4格式视频，FPS建议：10，质量建议：70% ，FPS越高，视频文件越大，但是视频流畅性越好，如果对流畅性有要求，可将FPS调整至24，FPS数值翻倍意味着视频大小也会翻倍。

D.输出目录选择：输出目录代表视频存放位置，可自行调整E.开始录制全部设置完毕后，点击左上角红色按钮，开始录制，红色圆形按钮变为红色方形按钮代表正在录制。

录制过程中如果有事情离开可点击暂停按钮，回来后再点击一下暂停即可恢复录制。

准备录制状态开始录制状态2.5停止\保存录屏：点击红色方形按钮停止录像，录像文件会保存到2.4.D的设置的目录中，点击右上角的文件夹按钮可快速进入该目录。

目录1.CAXA工艺图表简介 (1)1.1 与CAD系统的完美结合 (1)1.2 快捷的各类卡片模板定制手段 (1)1.3 所见即所得的填写方式 (2)1.4 智能关联填写 (3)1.5 丰富的工艺知识库 (3)1.6 导航功能 (4)1.7辅助功能 (4)2. 用户界面 (5)2.1 系统状态 (5)2.1.1 定制模板 (5)2.1.2 填写卡片 (5)2.2 基本概念 (6)2.2.1 模板 (6)2.2.1.1 工艺规程 (6)2.2.1.2 工艺卡片 (6)2.2.2 单元格 (6)2.2.3 单元格属性 (6)2.2.4 知识库关联 (7)2.2.5 单元格关联 (7)2.2.6 公共信息 (8)2.2.7首页和附页 (8)2.快速入门 (9)1.1 例一：建立并填写工艺卡片模板 (9)1.2例二：建立并填写工艺规程模板 (19)4. 功能说明 (37)4.1 创建文件 (37)4.1.1 创建工艺规程 (37)4.1.2 创建工艺卡片 (38)4.1.3 创建工艺模板 (39)4.1.3.1 创建工艺规程模板 (39)4.1.3.2 创建工艺卡片模板 (41)4.1.3.2.1 打开已有的文件 (42)4.1.3.2.2 定制新模板 (43)4.2 创建EB图形文件 (50)4.3 卡片填写 (51)4.3.1 模板选择 (51)4.3.2 填写 (51)4.3.3 行记录的操作 (54)4.3.4 卡片的操作 (55)4.3.5 卡片导航 (56)4.3.6 自动生成工序号 (56)4.3.7 填写公共信息 (56)4.4 规程模板管理 (57)4.5 辅助功能 (58)4.5.1 卡片检索 (58)4.5.2知识库管理 (59)5.统计卡片的制作 (60)附录 (62)1.CAXA工艺图表简介概述CAXA工艺图表是一个方便快捷、易学易用的计算机辅助工艺设计软件。

与CAD系统的完美结合使得表格设计精确而快捷；功能强大的各类卡片模板定制手段，所见即所得的填写方式，智能关联填写和丰富的工艺知识库使得卡片的填写准确而轻松；特有的导航与辅助功能全面实现工艺图表的管理功能。

Captura使用说明Captura使用说明1.简介Captura是一款功能强大的屏幕录制和截图工具，可用于录制视频教程、演示、游戏等。

本文档将详细介绍Captura的安装、使用方法以及其各项功能特点。

2.安装2.1访问官方网站[]，在页面选择适用于您操作系统的版本，。

2.2 安装完成后，运行安装程序。

按照向导提示完成安装，选择安装目录和其他配置选项。

3.屏幕录制3.1 启动Captura在桌面上找到Captura的快捷方式，双击启动程序。

3.2 配置录制选项在主界面中，您可以选择录制的屏幕区域、帧率、音频输入等。

根据您的需求进行相应的设置。

3.3 开始录制“开始录制”按钮，Captura将开始录制您的屏幕活动。

在录制过程中，您可以暂停、继续或停止录制。

3.4 录制设置Captura提供了丰富的录制设置选项，如录制声音、鼠标、画中画等。

您可以根据需要进行相应的设置。

4.截图功能4.1 快捷键截图Captura支持使用快捷键进行截图，默认快捷键为Ctrl+Shift+S。

按下快捷键后，您可以选择截取整个屏幕或指定区域。

4.2 定时截图Captura还支持定时截图功能，您可以设置每隔一段时间自动截图一次。

5.视频编辑5.1 录制回放录制完成后，Captura将自动打开录制的视频文件，并提供基本的视频编辑功能，如剪切、合并、调整音频等。

5.2 添加文本和标记Captura允许您在视频中添加文本、箭头、形状等标记，以便更好地说明和演示。

5.3 导出视频编辑完成后，您可以将视频导出为常见的视频格式，如MP4、AVI、MKV等。

您还可以设置视频的分辨率、帧率等参数。

6.附件本文档没有涉及附件。

7.法律名词及注释7.1 版权版权是指对作品享有的法律保护。

未经版权所有人许可，他人不得在未经授权的情况下复制、分发、展示、演示或制作衍生作品。

7.2 商标商标是指具有识别商品来源的图形、文字、标志或组合，注册商标具有法律保护。

PIPER PA28RT-201 ARROW IV PROCEDURES MANUALThis Procedures Manual is property of Inflight Pilot Training. Its use is limited to customers of InflightPiper PA28RT-201 Arrow IV ProceduresPre-Maneuver FlowSeat Belts……………………………………………………………………………………………… ……………………………………………………………………………….On Fuel Selector……………………………………………………………………………………………… …………………………………………………..………………………On Mixture……………………………………………………………………………………………… …………………………………………………………………………………Rich Fuel Pump……………………………………………………………………………………………… …………………………………………………….…………………………OnSlow Flight – Airplane Flying Handbook (AFH) 4-3Clearing Turns……………………………………………………………………………………………… ………………………………………………..……………Complete Altitude………………………………………………………………………………………… ……………………………………………..……………..Minimum 1500’ AGL Maneuver Throttle..…………………………………………………………………………………………..………………………………………………………….……………………15” MP Landing Gear…………………………………………………………………………………………….. …………………………………………………..…………….……Extend Flaps………………………………………………………………………………………………………………………………………………….Extend in Increments to 40°Prop RPM…………………………………………………………………………………………………………………………………………………………………………...…..Full Airspeed……………………………………………………………………… ………………………………………….………………Pitch to maintain above stall horn Altitude…………… ………………………………………..………………………………………………………………….Increase power as necessary to maintainRecovery – if stall horn sounds, buffet occurs, or instructor directs. Power…………………..…………………………………….. ………………………………………………………………………...Full (Verify Mixture, Prop, Throttle) Flaps……………………………………………………………………………………………………………………Retract in increments (Flaps, Flaps, Gear Flaps) Gear……………………………………………………………………………………………… …………………………………………………….…………………………..Retract Tolerances Heading…………………………………………………………………………………………….. ……………………………………………………………………………..+/- 10°Altitude…………………………………………………………………………………………….. …………………………………………………………………….…..+/- 100 ft. Airspeed……………………………………………………………………………………………..……………………………………………………………….Above stall hornSteep Turns – 360° left and right (PVT/Commercial) – AFH 9-2Clearing Turns……………………………………………………………………………………………… .………………………………………………..……………Complete Altitude………………………………………………………………………………………… ……………………………………………..……………..Minimum 1500’ AGL Reference Point………………………………………………………………………………………………………………………………………ndmark near horizon Maneuver Throttle..…………………………………………………………………………………………… …………………………………………………..…………………….…..20” MP Prop RPM……………………………………………………………………………………………… ………………………………………………….………………..2500 RPM Airspeed………………………………………………………………………………………… …………………………………………………..………………………….110 KTS During Turn…………………………………………………………………………… …………………………………………..……………………Slight throttle increaseTolerances Heading…………………………………………………………………………………………….. ……………………………………………………………………………..+/- 10°Altitude…………………………………………………………………………………………….. ………………………………………………………………………...+/- 100 ft.Airspeed…………………………………………………………………………………………….. ………………………………………………….….……………….+/- 10 KTS Bank Angle…………………………………………………………………………………………….. …………………………………………………………………….45° (50°) Power-Off Stall (Approach Configuration) – AFH 4-8Clearing Turns……………………………………………………………………………………………… ………………………………………………..…………….Complete Altitude………………………………………………………………………………………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Flaps………………………………………………………………………………… ……………………………………………..…………….…Extend in Increments to 40°Prop RPM……………………………………………………………………………………………………………………………………………………………………...………..Full Airspeed…………………………………………………………………… …………………………………………….………………….…..…..Pitch and Trim for 75 KTS Altitude…………………………………… ………………………………….…………………………Establish descent, choose an altitude to initiate the stallRecovery Pitch………………………………… ……………………………............................Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… …………………………………………………………………..……………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………….……………………….…………………….Control yaw Power…………..………………………………………………… …………………………………………………………………….Full (Verify Mixture, Prop, Throttle) Flaps…………………………… …………………………….………………..1st Notch immediately, 2nd Notch with Positive ROC, 3rd Notch at 78 KTS Landing Gear………………………………………………………………………………………… …………………………………………..……Retract (Positive ROC) Tolerances Heading……………………………………………………………………………………………..……………………………………………………………………….……..+/- 10°Bank Angle……………………………………………………………….. ………………………………………………..…………………………………..……..20° maximumPower-On Stall (Takeoff/Climb Configuration) – AFH 4-9Clearing Turns……………………………………………………………………………………………… ………………………………………………..……………Complete Altitude………………………………………………………………………………………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Altitude…………………………………………………………………………………………………………………………………………………………………..Maintain level Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Prop RPM……………………………………………………………………………………………………………………………………………………………………...………..Full Airspeed………………………………………………………………………………… ……………………………………………….…………………….Vr or Vy, as desired Power……..…………………………………………………………………… ……………………………………………………… Full (Verify Mixture, Prop, Throttle)Recovery Pitch………………………………… …………………………………………….......Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… ……………………….……………………………………………….………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………….……………………………………….…….Control yaw Power…………………………………………………………………… ……………………………………………………………………………………………….……………….Full Landing Gear………………………………………………………………………………………… …………………………………………..……Retract (Positive ROC) Tolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle………………………………………………………………..………………………………………………………………………..…………………..20° maximumGo-Around – AFH 8-12 - 14Maneuver Power…………..………………………………………………… …………………………………………………………………….Full (Verify Mixture, Prop, Throttle) Heading………………………………………………………………………………………………….. ……………..……Control with Rudder, Maintain Centerline Pitch…………………………………………………………………….. …………….......Maintain level to build airspeed, then smoothly set climb attitude Flaps…………………………… …………..……………………..1st Notch when airspeed builds, 2nd Notch with Positive ROC, 3rd Notch at 78 KTS Landing Gear………………………………………………………………………………………… …………………………………………..……Retract (Positive ROC) Tolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Altitude……………………………………………………………….. ……………………..………..……..Minimal to no altitude loss after initiating maneuverAccelerated Stall (Commercial/CFI) – AFH 4-10Clearing Turns………………………………………………………………………………………………………………………………………………………………Complete Altitude………………………………………………………………………………………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Prop RPM………………………………………………………………………………………………………………………………………………………………………...……..Full Altitude…………………………………………………………………………………………………………………………………………………………………..Maintain level Bank Angle…………………………………………………………… ……………………………………………………..45°, increase back pressure to reach stallRecovery Pitch………………………………… …………………………………………….......Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… …………………………………………….………………………….………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………………………………………………….…….Control yaw Power…………………………………………………………………… ……………………………………………………………………………………………….……………….Full Secondary Stall (CFI) – AFH 4-10Clearing Turns……………………………………………………………………………………………… ……………………………………………….…………….Complete Altitude………………………………………………………………………………………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Flaps……………………………………………………………………………………………………………………………………………….…Extend in Increments to 40°Prop RPM…………………………………………………………………………………………………………………………………………………………...…………………..Full Airspeed…………………………………………………………………… ………………………………………………………………………..Pitch and Trim for 75 KTS Altitude…………………………………… ……………………………………………………………Establish descent, choose an altitude to initiate the stall Stall Indication……………………………… ………………………………………………….Release back pressure, then immediately increase abruptlyRecovery Pitch…………………………………………………………………..........................Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… …………………………………………………………………..……………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………….……………………….…………………….Control yaw Power…………..………………………………………………… …………………………………………………………………….Full (Verify Mixture, Prop, Throttle)Flaps…………………………… …………………………….………………..1st Notch immediately, 2nd Notch with Positive ROC, 3rd Notch at 78 KTS Landing Gear………………………………………………………………………………………… ………………………………………….……Retract (Positive ROC) Elevator Trim Stall (CFI) – AFH 4-12Clearing Turns……………………………………………………………………………………………… ……………………………………………….…………….Complete Altitude………………………………………………………………………………………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Flaps………………………………………………………………………………… ……………………………………………..…………….…Extend in Increments to 40°Prop RPM…………………………………………………………………………………………………………………………………………………………………...…………..Full Airspeed…………………………………………………………………… ………………………………………………………………………..Pitch and Trim for 75 KTS Altitude…………………………………… ………………………………….…………………………Establish descent, choose an altitude to initiate the stall Power……………………………… …………………………………….………………………………………..Full, simulate go-around (Mixture, Prop, Throttle)Recovery Pitch…………………………………………………………………..........................Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… …………………………………………………………………..……………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………….……………………….…………………….Control yaw Power…………..………………………………………………… …………………………………………………………………….Full (Verify Mixture, Prop, Throttle) Flaps…………………………… …………………………….………………..1st Notch immediately, 2nd Notch with Positive ROC, 3rd Notch at 78 KTS Landing Gear………………………………………………………………………………………… …………………………………………..……Retract (Positive ROC) Crossed Control Stall (CFI) – AFH 4-11Clearing Turns……………………………………………………………………………………………… ………………………………………………..…………….Complete Altitude…………………………………… …………………………………..……………………………………An altitude allowing full recovery by 1500’ AGL Maneuver Throttle.…………………………………………………………………………………………… ………………………………………………………………………………15” MP Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Prop RPM………………………………………………………………………………………………………………………………………………………………………...……..Full Descent……………………………………………………………………………………………………………………..……………………………………………………..75 KTS Enter Turn……………………………Increase Rudder in Direction of Turn, Increase Opposite Aileron, Maintain Elevator Back PressureRecovery Pitch…………………………………………………………………..........................Lower pitch, reducing elevator pressure, then back to climb attitude Ailerons……………………………………………… …………………………………………………………………..……………..…………Neutral, then level the wings Rudder…………………………………………………………………… ………………………………………………….……………………….…………………….Control yaw Power…………..………………………………………………… …………………………………………………………………….Full (Verify Mixture, Prop, Throttle) Landing Gear………………………………………………………………………………………… ………………………………………….……Retract (Positive ROC) Chandelles – AFH 9-5Clearing Turns……………………………………………………………………………………………… ……………………………………………….…………….Complete Altitude…………………………………..……… ………………………………………..………………………………..…………… An altitude of at least 1500’ AGL Reference Point ……………………………………………….……………………………………………………………………………………………………………SelectedManeuver Airspeed……………………………………………………………………………………………… …………………………………………………………………………110 KTS Throttle..…………………………………………………………………………………………………………………………………………………………..…..Approx. 22” MP Prop RPM……………………………………………………………………………………………… ……………………………………………………..………………………...Full Chandelle………………………………………………………………………………………………………………………………………………………..……………plete Tolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle……………………………………………………………….. ……………………..……………………………………………………..……………..30° maximum Airspeed…………………………………………………………….…………………………………………………………………………………………………Just above stallLazy Eights – AFH 9-6Clearing Turns……………………………………………………………………………………………… ………………………………………………..…………….Complete Altitude…………………………………..……… ………………………………………..………………………………..…………… An altitude of at least 1500’ AGL Reference Point ……………………………………………….……………………………………………………………………………………………………………Selected Maneuver Airspeed……………………………………………………………………………………………… …………………………………………………………………………110 KTS Throttle.……………………………………………………………………………………………………………………………………………………………………………22“ MP Prop…..…………………………………………………………………………………………… …………………………………………………………………………..2300 RPM Lazy Eight………………………………………………………………………………… ………………………………………………….………………..……………pleteTolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle……………………………………………………………….. …………………………………..…………………………………..…………………..30° maximum Airspeed……………………………………………………………. ………………………………………………….………………………………………….………..+/- 10 KTS Altitude.……………………………………………………………. ……………………………………………………………………………..+/- 100’ from entry altitude Steep Spirals – AFH 9-4Clearing Turns……………………………………………………………………………………………… ……………………………………………….…………….Complete Altitude…………………………………..……… …………………………………………………..………An altitude allowing 3 complete turns by 1500’ AGL Reference Point ……………………………………………………………………………………………………………………………………………………………Selected Maneuver Throttle.…………………………………………………………………………………………………………………………………………………….………..Idle abeam point Prop RPM……………………………………………………………………………………………… ……………………………………………………..………………………...Full Landing Gear……………………………………………………………………………………………… ………………………………………………….…………………Extend Airspeed……………………………………………………………………………………………… …………………………………………………………………………..90 KTS Steep Spiral………………………………………………………………………………… ……………………………………………..….………………plete 3 turns Clearing Engine………………………………………………………… ………………………………….Clear with a slight throttle increase on each upwindTolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle………………………………………………………………..……………………………………………………………….45° to begin turn, 60° maximum Airspeed……………………………………………………………. ………………………………………………….……………………………………….…………..+/- 10 KTS Altitude……………………………………………………………. ……………………………………………………………………………….…plete by 1500’ AGLEights on Pylons – AFH 6-14Clearing Turns……………………………………………………………………………………………… ………………………………………………..…………….Complete Altitude…………………………………..……… ……………………………………….………………………………..………… Pivotal altitude calculated/selected Reference Points. ………………………………………………..…………………………………………………………………………………………………………Selected Emergency Field..……………………………………………………………………………………………………………………………………………………………SelectedManeuver Airspeed……………………………………………………………………………………………… …………………………………………………………………………110 KTS Throttle.……………………………………………………………………………………………………………………………………………………………………………22“ MP Prop .……………………………………………………………………………………………… …………………………………………………………………………..2300 RPM Eights on Pylons…..…………………..……………………………………………………………………………………………………………………..……………pleteTolerances Heading…………………………………………………………………………… ………………………………………………………………….…..45° entry to first pylon Bank Angle……………………………………………………………….. ………………………………………………………………………..…………………..As necessary Airspeed……………………………………………………………. ………………………………………………….………………………………………….………..+/- 10 KTS Altitude…………………………………………….……. ………………………………………….………………………………….…..Begin and end at pivotal altitude Turns Around a Point – AFH 6-8Clearing Turns……………………………………………………………………………………………… ……………………………………………….…………….Complete Altitude…………………………………..……………………………..…… …………………………………………………………………………………..………… 1000’ AGL Reference Point... ………………………………………………..…………………………………………………………………………………………………………Selected Emergency Field..……………………………………………………………………………………………………………………………………………………………Selected Maneuver Airspeed……………………………………………………………………………………………… …………………………………………………………………………110 KTS Throttle.……………………………………………………………………………………………… …………………………………………………..………………………22“ MP Prop .……………………………………………………………………………………………… …………………………………………………………………………..2300 RPM Turn Around Point...…………………..………………………………………………… ………………………………………………………………..……………pleteTolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle……………………………………………………………….. ………………………………………………..……………………..…………………..45° maximum Airspeed……………………………………………………………. ………………………………………………….…………………………………….……………..+/- 10 KTS Altitude………………………………………………………………………………. …………………………………………………..………………………………….…..+/- 100’ S-Turns Across a Road – AFH 6-10Clearing Turns……………………………………………………………………………………………… ………………………………………………..…………….Complete Altitude…………………………………..……………………………..…… …………………………………………………………………………………..………… 1000’ AGL Reference Point... ………………………………………………..…………………………………………………………………………………………………………Selected Emergency Field..……………………………………………………………………………………………………………………………………………………………Selected Maneuver Airspeed……………………………………………………………………………………………… …………………………………………………………………………110 KTS Throttle.……………………………………………………………………………………………… …………………………………………………..………………………22“ MP Prop .……………………………………………………………………………………………… …………………………………………………………………………..2300 RPM S-Turn……………....…………………..………………………………………………… …………………………………………………..………………..……………pleteTolerances Heading……………………………………………………………………………………………..………………………………………………………………………….…..+/- 10°Bank Angle………………………………………………………………..………………………………………………………………………..…………………..45° maximum Airspeed……………………………………………………………. ………………………………………………….………………………………………….………..+/- 10 KTS Altitude………………………………………………………………………………. …………………………………………………..………………………………….…..+/- 100’Traffic Pattern – AFH CH. 7Downwind:1000’ AGL 20” MP 2500 RPM 90 – 100 KTSBrief Landing:Runway WindApproach SpeedTouchdown/Aim PointAbeam TD:15” MPGear DN <130 KTS Prop RPM Full90 KTS10 Flaps <108Base :25 Flaps 80 KTSGUMPS – (Gas, Undercarriage, Mixture, Prop, Seat Belts)Final:40 Flaps 75 KTSUpwind:No more runway Gear UP <109 KTS500’ AGL: 25” MP 2500 RPM 90 KTSVy – 87 (Gear UP) 76 (Gear DN) Vx – 77 (Gear UP) 70 (Gear DN)Engine Failure Procedure – AFH 8-25, 26The engine failure procedure is intended to provide the student with a basic procedure in order to correctly set up the aircraft for a power off approach to the emergency landing site. Not included in this procedure are the necessary procedures and checklists to troubleshoot the engine and secure the engine. These will be found in the aircraft POH as well as the Inflight iPad checklists.Emergency landing site, selected due to wind, obstacles, size, terrain.KEY POSITION¼ - ½ mile abeam 1000’ AGL (est.) Proceed directly to KEY POSITION at Best Glide. Complete checklists andcommunicate asaltitude allows. Aviate, Navigate,Communicate.Spiral as necessary to arrive at Key Position.Depart Key Position and execute the power off approach, using flaps and forward slip as necessary to simulate landing at emergency site.WIND 123Prior to the Approach:Approach.……………………………………………………………………………………………… …………………………………………………..…………………….Briefed Checklists.……………………………………………………………………………………………… ……………………………………………pleted as necessaryOn Initial Approach Segment or Downwind/Base VectorThrottle.……………………………………………………………………………………………………………………………………………………………………………22” MP Prop.……………………………………………………………………………………………………………………………………………………………………………2500 RPM Airspeed.……………………………………………………………………………………………… …………………………………………………..……………………110 KTSApproaching Major Descent Point (1/2 Scale on GS or 2 NM to FAF)Landing Gear.….………………………………………………………………………………………… …………………………………………….Down (below 130 KTS) Flaps.……………………………………………………………………………………………………………………………………………………………10° (below 108 KTS) Airspeed.……………………………………………………………………………………………… …………………………………………………..……………………100 KTSIntercepting Major Descent Point (GS/FAF)Throttle.……………………………………………………………………………………………… …………………………………………………………………..16” – 17” MP Landing Gear.……………………………………………………………………………………………………………………………………………………….Verify 3 Green Flaps.………………………………………………………………………………………………………………………………………………………………………………………25°Pitch.……………………………………………………………………………………………… ……………………………………………………………………………2.5° Down Airspeed.……………………………………………………………………………………………… …………………………………………………..……………………100 KTS Briefing the ApproachWEATHER – ATIS/Automated WeatherINSTRUMENTS – Set as necessary.RADIOS – Set as necessaryENVIRONMENT – Brief the approachBrief the approach from Top to BottomHeader - Verify Name, Type, and Runway of the approach. Discuss the notes and frequencies and note any changes as necessary. Verify airport lighting. Tune and ID frequencies. Verify airport elevation and TDZE.Planview – Brief current location relative to the airport, IAF, approach segments to the airport, and any procedure turns. Minimum Safe Altitude for the area. Brief runway position relative to Final Approach Course. Is circling required?Profile – Brief fixes, altitudes, and minimums.Missed Approach – Brief the FULL missed approach. The first 2 steps should be memorized.Prior to the Approach:Autopilot...................................................................................................................................................................... …………………………………………………….On Altitude Autopilot Select..…………………………………………………………………………………. ……………………………………...Test(Lights) then On AP Mode Selector Knob..…………………………………………………………………………………….…. ……………………………………………..As NecessaryIf Vectored: HeadingIf Using GPS: Heading & GPSS (GPSS located on Aspen)If Using VLOC: NavAltitude Autopilot.…………………………………………………………………………………………………… ……………………………………………As NecessaryHold Altitude: ALTChange Altitude: OFF (button left side of autopilot) then VS (@ approx. +/-500fpm)On Published Portion of Approach:CDI Button on GPS……………………………….…………………………………………………………………………….….Select either VLOC or GPS mode AP Mode Selector Knob..……………………………………………………………………………………… …………………………………………….…As Necessary RNAV Approach : Heading & GPSS (GPSS located on Aspen)VOR Approach: OMNI (Note: Must be engaged within 10 degrees of being “on course”)LOC/ILS: LOC Norm. (Note: Must be engaged within 10 degrees of being “on course”)Back Course: LOC Rev. (Note: Must be engaged within 10 degrees of “on course”)Established on Final Approach Course…………………………………………………………………………..….………………………………………....GS ArmedAt Major Descent Point (GS Intercept or FAF):Altitude Autopilot.…………..………………………………………………………………… …………………………………...Verify GS(if Precision Approach) Verify………………………………………..........................................................................…………………………………………….Gear Down 3 Green, Flaps 25°Trim………………………………………………………………………………………………………….…………………………………………………………….As Necessary Note: Autopilot will over speed flaps if left at 10°During decent using “GS” the autopilot may indicate it requires either “Nose Up” or “Nose Down” trim. It is important to reference your IAS first before complying with the indicator as the autopilot is unable to distinguish between the need for a change of power versus nose up or down trim. If airspeed is between 90 – 100 KTS consider a small adjustment in power, however if outside of 90 KTS or 100 KTS a large adjustment many be required, or the aircraft could be moved to an unsafe attitude.“Nose down” = Power down & “Nose up” = Power up. Power will reduce tension on the Autopilot.Piper Arrow IV - Autopilot Enroute UsageGeneral rules of thumb• Main AP Control - the 2 switches on the left (labeled “PIPER AUTOCONTROL IIIB) need to be“on” when using autopiloto Be sure to set Spinner and/or Top Panel before hitting Main AP switches• Spinner controls lateral • Top panel controls vertical Common Errors• Aspen GPSS is on or off incorrectly• Aspen GPSS must be on (softkey on right side of Aspen) to navigate using GPS. • AP Spinner must be in HEADING to navigate using GPSLateral•Lateral using GPS□430 in GPS□Aspen in GPSS (softkey on right)□AP Spinner to HDG□Main AP switches “on” on left side (switchedup)□Verify aircraft is doing what you want it todo, if not hand-fly and trouble shoot•Lateral holding a heading□Aspen has desired heading bugged□Aspen is in HDG mode (may need to toggleGPSS softkey)□AP Spinner to HDG□Main AP switches “on” on left side (switchedup)□Verify aircraft is doing what you want it todo, if not hand-fly and trouble shoot•Lateral using VORs□430 in VLOC□Aspen has the desired VOR/Course on HSI□AP Spinner to NAV□Both switches “on” on left side (switched up)□Verify aircraft is doing what you want it todo, if not hand-fly and trouble shootVertical•Vertical – cruise altitude change□Hand fly to stablish desired FPM climb or descent.□When at desired climb or decent rate, push VS – it will hold the rate you were at when button was pushed§Usually 500fpm□Verify aircraft is doing what you want it to do, if not hand-fly and trouble shoot□There is NO auto-throttle. Be sure Throttle/Prop are at appropriate settings§Throttle will have to be adjusted with altitude changes to hold desired MP§** Monitor all gages, especially Airspeed, MP and RPM to assure no adjustments are needed**•Level Flight□At desired Altitude press ALT□Make minor trim adjustments as “UP” or “DN” lights prompt□Verify aircraft is doing what you want it to do, if not hand-fly and trouble shoot□Assure proper power settings are maintained。

4.功能说明4.1 创建文件4.1.1 创建工艺规程选择“文件”下拉菜单中的“新建”，系统弹出文件类型选择对话框：图4-1-1 新建文件对话框点取标签“工艺规程”，系统会列出可使用的工艺规程模板列表，选择一个模板后，按下“确定”按钮，则系统会将过程卡片设置为第一张卡片，并进入填写状态，如图4-1-2。

图4-1-2 卡片填写操作界面图形区中显示的是过程卡片，绿色及蓝色的格子用户可用鼠标点取进行所见即所得的填写，其中蓝色的格子还提供知识库的导航。

右侧的为工艺卡片树，加黑显示的为当前卡片，用户可通过鼠标左键双击打开任何一张卡片，也可通过SHIFT＋方向键进行卡片间的导航切换。

当用户选择单元格填写时，卡片树中的内容被知识库的内容替代，用户选择后可直接将选中的内容填写到单元格中。

4.1.2 创建工艺卡片（1）选择“文件”下拉菜单中的“新建”，系统弹出文件类型选择对话框：图4-1-3 新建文件对话框（2）点取标签“工艺卡片”，则系统会列出可以使用的工序卡片模板，选择一张卡片模板，按下按钮“确定”，系统直接进入卡片填写状态，如图4-1-4 。

图4-1-4 卡片填写操作界面4.1.3 创建工艺模板4.1.3.1 创建工艺规程模板工艺规程模板就是一套工艺规程所用到的所有卡片模板，在工艺规程模板中可以指定工艺过程卡片和工艺规程中的公共信息。

【操作步骤】：1、点击图标“”，出现“新建文件类型”对话框。

选择“工艺规程模板”，并“确定”，如图4-1-5。

图4-1-5 新建文件类型对话框2、弹出“新建工艺规程∷输入工艺规程名称”对话框。

填入您所要创建的工艺规程名称，并点取“下一步”按钮，如图4-1-6。

图4-1-6 “新建工艺规程∷输入工艺规程名称”对话框3、弹出“新建工艺规程∷指定卡片模板”对话框。

在“工艺卡片模板”中选择需要的模板。

在没有选择工艺过程卡片之前，系统会自动提示您是否指定所选卡片为工艺过程卡片。

如果所选的是过程卡片，点击“是”即可，如图4-1-7。

MeccanicaMovimenti di traslazioneLancio inclinatoREGISTRAZIONE PUNTO PER PUNTO DELLE “PARABOLE DI LANCIO”UE1030400 03/16 JSBASI GENERALIIl movimento di una sfera lanciata nel campo gravitazionale con un’angolazione rispetto al piano orizzontale è composto, secondo il principio di sovrapposizione, da un movimento a velocità costante nella direzione del lancio e da un movimento di caduta. Ne risulta una curva di volo parabolica, la cui altezza e ampiezza dipendono dall’angolo di lancio α e dalla velocità di lancio v 0.Ai fini del calcolo della curva di volo, per semplificare le cose si posiziona l’origine del sistema di coordinate al centro della sfera nel momento iniziale e si trascura l’attrito dell’aria sulla sfera. Quindi in direzione orizzontale la sfera mantiene la propria velocità iniziale()αcos 00⋅=v v x (1)e pertanto raggiunge, nel momento t , la distanza orizzontale()t v t x ⋅⋅=αcos 0(2)In direzione verticale la sfera, sotto l’influsso del campo gravitazionale, è soggetta all’accelerazione di caduta g . Nel momento t la sua velocità è pertanto()t g v tv y ⋅-⋅=αsin 0(3)e la distanza verticale()2021sin t g t v t y ⋅⋅-⋅⋅=α (4).Fig. 1: Disposizione di misurazione per la registrazione punto per punto delle “parabole di lancio”ELENCO DEGLI STRUMENTI1 Apparecchio di lancio1002654 (U10360) 1 Supporto per apparecchio di lancio1002655 (U10361) 1 Scala per altezza, 1 m 1000743 (U8401560) 1 Set indicatori per scale 1006494 (U8401570) 1 Piede a barilotto, 1 kg 1002834 (U13265) 1 Metro a nastro tascabile, 2 m1002603 (U10073)La curva di volo della sfera ha forma parabolica in quanto soddisfa l’equazione()()220cos 21tan xv g x x y ⋅⋅⋅-⋅=αα (5)Nel momentogv t αsin 01⋅=(6).la sfera raggiunge il punto più elevato della parabola e nel momentogv t αsin 202⋅⋅= (7).ritorna nuovamente all’altezza di partenza 0. L’altezza della parabola è quindi()α2201sin 2⋅⋅==gv t y h(8).e l’ampiezza()ααcos sin 2202⋅⋅⋅==gv t x s(9).Nell’esperimento si misurano punto per punto le curve di volo di una sfera di legno in funzione dell’angolo e della velocità di lancio con l’impiego di una scala per altezza con due indicatori (ved. fig. 3). La componente orizzontale x della curva di volo si ricava dalla distanza X orizzontale rispetto al bordo destro del supporto determinata con un metro a nastro:mm 110+=X x(10).La componente verticale y si calcola a partire dalle posizioni Y 1 e Y 2 dei due indicatori con l'assunzione che la sfera voli esattamente in mezzo. A questo proposito si deve considerare che il punto zero della misurazione dell'altezza corrisponde all'altezza del bordo superiore del tavolo, mentre la sfera parte 37,5 mm al di sopra dello stesso:mm 5,37212-+=Y Y y (11).Lo scostamento massimo del valore calcolato dal valore reale è pari amm 5,12212--=∆Y Y y (12).MONTAGGIO∙Bloccare il supporto per l'apparecchio di lancio sulla parte frontale di un tavolo lungo almeno 2 m e montare l'apparecchio di lancio secondo le istruzioni per l'uso ∙ Srotolare il metro a nastro - a partire dal bordo destro del supporto per l'apparecchio di lancio - e fissarlo sul tavolo. ∙Disporre sul tavolo il bersaglio di figura 2 su una base di 25 mm di spessore a una certa distanza dall'apparecchio di lancio.∙ Montare posteriormente una parete "di raccolta" per la sfera che rimbalza.Fig. 2: Bersaglio per l'atterraggio della sferaFig. 3: Rappresentazione schematicaAVVERTENZE PER LA SICUREZZAAnche se l'energia di lancio della sfera è molto bassa, la sfera non deve in nessun caso colpire gli occhi.∙Non guardare mai nella canna dell'apparecchio di lancio!∙Si deve controllare la posizione della sfera soltanto attraverso i fori laterali dell'apparecchio di lancio.∙Prima del lancio accertarsi che non si trovino persone nella traiettoria.ESECUZIONEDeterminazione della gittata in funzione dell'angolo di lancio∙Impostare l'angolo di lancio α = 30°.∙Disporre il bersaglio a circa 1 m di distanza.∙Caricare l'apparecchio di lancio secondo le istruzioni per l'uso fino al tensionamento minimo.∙Lanciare la sfera e seguire la traiettoria della sfera.∙Spostare il bersaglio verso il punto di impatto della sfera.∙Ripetere il lancio della sfera e correggere la posizione del bersaglio finché la sfera non atterra nel centro del bersaglio.∙Determinare la distanza X del centro del bersaglio e inserirla nella tab. 1.∙Effettuare in successione la misurazione anche per gli angoli di lancio α = 45°, 60° e 75°.∙Nella Tab. dalle distanze X secondo (10) calcolare le gittate s.Determinazione della gittata massima in funzione della velocità di lancio:∙Impostare l'angolo di lancio α = 45°.∙Caricare l'apparecchio di lancio secondo le istruzioni per l'uso fino al tensionamento medio.∙Lanciare la sfera e seguire la traiettoria della sfera.∙Spostare il bersaglio verso il punto di impatto della sfera.∙Ripetere il lancio della sfera e correggere la posizione del bersaglio finché la sfera non atterra nel centro del bersaglio.∙Determinare la distanza X del centro del bersaglio e inserirla nella tab. 2.∙Effettuare la misurazione anche per il massimo tensionamento della molla.∙Nella tab. 2 dalle distanze X secondo (10) calcolare le gittate massime s max.Registrazione punto per punto delle “parabole di lancio” in funzione dell’angolo di lancio.∙Impostare l'angolo di lancio α= 30° e posizionare il bersaglio in modo che la sfera atterri nel centro con tensionamento minimo della molla.∙Montare la scala per altezza nel piede a barilotto e disporla a X = 100 mm∙Disporre la coppia di indicatori a Y1 = 110 mm e Y2 = 140 mm.∙Lanciare la sfere con il minimo tensionamento della mollae verificare se atterra senza impedimenti nel centro delbersaglio.∙Correggere eventualmente la posizione dell'indicatore finché la sfera non atterra nel centro del bersaglio.∙Inserire i valori X, Y1 e Y2 nella tab. 3 e in base ad essi calcolare x, y e ∆y.∙Aumentare le distanze X in stadi da 50 mm e correggere rispettivamente la posizione dell'indicatore finché la sfera con tensionamento minimo della molla atterra nel centro del bersaglio.∙Effettuare le misurazioni anche per gli angoli di lancio α = 45°, 60° e 75° e riportare i risultati nelle tab. 4, 5 e 6.∙Se è disponibile sufficiente spazio per gli esperimenti eseguire misurazioni anche per altri tensionamenti della molla.ESEMPIO DI MISURAZIONEDeterminazione della gittata in funzione dell'angolo di lancioTab. 1: Gittata in funzione dell'angolo di lancio alla minima velocità di lancioTab. 2: Gittata massima in funzione della velocità di lancioRegistrazione punt o per punto delle “parabole di lancio” in funzione dell’angolo di lancio.Tab. 3: coordinate della curva di volo rispetto all'angolo di lancio α = 30°:Tab. 4: coordinate della curva di volo rispetto all'angolo di lancio α = 45°:Tab. 5: coordinate della curva di volo rispetto all'angolo di lancio α = 60°:Tab. 6: coordinate della curva di volo rispetto all'angolo di lancio α = 75°:3B Scientific GmbH, Rudorffweg 8, 21031 Amburgo, Germania, ANALISIDeterminazione della gittata in funzione dell'angolo di lancioLa figura 4 rappresenta graficamente la dipendenza della gittata s dall'angolo di lancio α sulla base dei valori di misura della tab.1. La curva disegnata attraverso i punti di misura è stata calcolata per v 0 =3,42 m/s secondo (9).α°s / mFig. 4: Gittata in funzione dell'angolo di lancioIn corrispondenza dell’angolo di lancio α = 45° viene raggiunta l’ampiezza s max di tutte le curve di volo.Determinazione della gittata massima s max in funzione della velocità di lancio v 0:Dalla gittata massima s max ottenuta a 45° può essere calcolata la velocità di lancio v 0. Grazie all’equazione 9, valemax 0s g v ⋅=I risultati sono riportati nella tab. 2.Registr azione punto per punto delle “parabole di lancio” in funzione dell’angolo di lancio.La fig. 5 mostra le curve elencate nelle tab. da 3 a 6 in rappresentazione grafica. Un'analisi precisa mostra che le curve di volo si scostano leggermente dalla forma parabolica, perché si deve considerare l'attrito dell'aria della sfera.x / c m y / c m5Fig. 5: Parabole di lancio misurate e calcolate tenendoconto dell’attrito dell’aria a velocità di lancio minima e a diversi angoli di lancio.。

科帕奇使用技巧科帕奇（Copa Capt.）是一种源自阿根廷的传统舞蹈和音乐形式，于19世纪中叶在阿根廷巴塔哥尼亚地区兴起。

科帕奇是一种非常具有活力和热情的舞蹈，以其独特的舞蹈步伐和音乐节奏而闻名于世。

科帕奇使用技巧是指在进行科帕奇舞蹈时需要注意和掌握的一些技巧和要点。

以下是一些科帕奇使用技巧：1. 身体姿势：科帕奇舞蹈要求舞者保持挺胸、收腹，脊柱挺直，身体重心稍微向前倾。

这样的身体姿势可以帮助舞者更好地控制自己的身体平衡，同时也能够更好地表达舞蹈的热情和活力。

2. 脚步和节奏：科帕奇舞蹈中，脚步动作非常重要。

舞者需要准确地掌握不同的脚步和节奏，并且与音乐的节拍相匹配。

常见的脚步动作包括基本的步伐、快速的小跳和脚踢等。

舞者需要灵活地运用不同的脚步动作，同时保持与舞伴的同步，使整个舞蹈更加协调和有魅力。

3. 手部动作：科帕奇舞蹈中，手部动作同样非常重要。

舞者需要有良好的手部协调能力，能够与脚步动作协调配合。

常见的手部动作有手舞、甩手、扭动手腕等。

舞者可以根据自己的喜好和舞蹈的要求，自由地展示手部动作，增强舞蹈的表现力。

4. 舞姿转换：科帕奇舞蹈中，舞姿的转换非常频繁。

舞者需要快速地切换不同的舞姿，并保持舞步的连贯性。

舞者在进行舞姿转换时需要注意脚步的准确性和身体平衡的掌握，确保舞蹈的流畅和整齐。

5. 表情和情感：科帕奇舞蹈强调情感的表达。

舞者需要学会通过脸部表情和眼神传达自己的情感和热情，使观众能够更好地感受到舞者在舞蹈中所表达的情感。

综上所述，科帕奇使用技巧对于舞者来说非常重要，它们决定了舞蹈形式的美感和魅力。

舞者在学习和掌握科帕奇时需要注重身体姿势、脚步和节奏、手部动作、舞姿转换以及表情和情感的表达，通过不断地练习和磨砺，才能够表演出高质量的科帕奇舞蹈。

H0T Series Audio Bullet CameraUser ManualUser ManualThank you for purchasing our product. If there are any questions, or requests, do not hesitate to contact the dealer.This manual applies to the models below:ModelDS-2CE16H0T-ITPFSDS-2CE16H0T-ITFSDS-2CE17H0T-IT3FSThis manual may contain several technical mistakes or printing errors, and the content is subject to change without notice. The updates will be added to the new version of this manual. We will readily improve orupdate the products or procedures described in the manual.010*********Regulatory InformationFCC InformationPlease take attention that changes or modification not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.FCC compliance: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.FCC ConditionsThis device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:1. This device may not cause harmful interference.2. This device must accept any interference received, including interference that may cause undesired operation.EU Conformity StatementThis product and - if applicable - thesupplied accessories too are marked with"CE" and comply therefore with theapplicable harmonized European standards listed under the Low Voltage Directive2014/35/EU, the EMC Directive 2014/30/EU, the RoHS Directive 2011/65/EU.2012/19/EU (WEEE directive): Productsmarked with this symbol cannot bedisposed of as unsorted municipal waste inthe European Union. For proper recycling,return this product to your local supplierupon the purchase of equivalent new equipment, or dispose of it at designated collection points. For more information see: . 2006/66/EC (battery directive): This product contains abattery that cannot be disposed of asunsorted municipal waste in the EuropeanUnion. See the product documentation forspecific battery information. The battery ismarked with this symbol, which may include lettering to indicate cadmium (Cd), lead (Pb), or mercury (Hg). For proper recycling, return the batteryto your supplier or to a designated collection point. For more information, see: .Industry Canada ICES-003 ComplianceThis device meets the CAN ICES-3 (A)/NMB-3(A) standards requirements.WarningThis is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.Safety InstructionWarnings●In the use of the device, you must be in strict compliance with the electrical safety regulations of the nation and region.●Input voltage should meet both the SELV (Safety Extra Low Voltage) and the Limited Power Source with 12 VDC according to the IEC60950-1 standard andIEC62368-1 standard. Refer to technical specifications for detailed information.●Do not connect multiple devices to one power adapter to avoid over-heating or a fire hazard caused by overload.●The socket-outlet shall be installed near the equipment and shall be easily accessible.●Make sure that the plug is firmly connected to the power socket.●A readily accessible disconnect device shall be incorporated external to the equipment.●An overcurrent protective device shall be incorporated external to the equipment, not exceeding the specification of the building.●An all-pole mains switch shall be incorporated in the electrical installation of the building.●If smoke, odor or noise rise from the device, turn off the power at once and unplug the power cord, and then contact the service center.●Never attempt to disassemble the camera by unprofessional personal.Cautions●No naked flame sources, such as lighted candles, should be placed on the equipment.●Install the equipment according to the instructions in this manual.●To prevent injury, this equipment must be securely attached to the floor/wall in accordance with the installation instructions.●Do not touch the sharp edges or corners.●Do not drop the camera or subject it to physical shock.●Do not touch senor modules with fingers.●Do not place the camera in extremely hot, cold (the operating temperature shall be -40°C to 60°C), dusty or damp locations, and do not expose it to high electromagnetic radiation.●If cleaning is necessary, use clean cloth with a bit of ethanol and wipe it gently.●Do not aim the camera at the sun or extra bright places.●The sensor may be burned out by a laser beam, so when any laser equipment is in using, make sure that the surface of sensor will not be exposed to the laser beam.●Do not expose the device to high electromagnetic radiation or extremely hot, cold, dusty or damp environment.●To avoid heat accumulation, good ventilation is required for the operating environment.●Keep the camera away from liquid while in use for non-water-proof device.●While in delivery, the camera shall be packed in its original packing, or packing of the same texture.1 Introduction1.1 Product FeaturesThe main features are as follows: ● High performance CMOS sensor● OSD menu with configurable parameters ● Smart IR● Audio over coaxial cable ● Built -in mic● 4 in 1 video output1.2 Overview1.2.1 Overview of Type I CameraFigure 1-1 Overview of Type I Camera1.2.2 Overview of Type II CameraNote:Press and hold the switch button for 5 seconds to switch the video output. Four kinds of video outputs are available: TVI, AHD, CVI, and CVBS.2 InstallationBefore you start● Make sure that the device in the package is in good condition and all the assembly parts are included. ● Make sure that all the related equipment is power -off during the installation.● Check the specification of the products for the installation environment.● Check whether the power supply is matched with your power output to avoid the damage.● Make sure the wall is strong enough to withstand three times the weight of the camera, and the mount.● If the wall is cement, insert expansion bolts before installing the camera. If the wall is wooden, use self -tapping screws to secure the camera.● If the product does not function properly, contact your dealer or the nearest service center. Do NOT disassemble the camera for repair or maintenance by yourself.2.1 Installation of the CameraBefore you start:The installation of type I and type II camera are similar. Following pictures are only for reference. Take the actual object as standard.2.1.1 Ceiling/Wall Mounting without Junction Box Before you start:The installation of ceiling mounting and wall mounting are similar. Following takes ceiling mounting as an example. Steps:1. Drill the screw holes and the cable hole (optional) on the ceiling.2. Route the cables through the cable hole, or the side opening.3. Attach the bracket to the ceiling, and secure the camera with supplied screws. For cement ceiling, you need to install the expansion bolts at first.Figure 2-1 Attach the Camera to the Ceiling Note:The supplied screw package contains self-tapping screws, and expansion bolts.4. Connect the corresponding power cord, and video cable.5. Power on the camera to check whether the image on the monitor is gotten from the optimum angle. If not, loosen the screws and the trim ring to adjust the position.[0° to 360°]]to 180°]T RFigure 2-2 3-Axis Adjustment1). Loosen the T adjusting screw to adjust the tilt position [0° to 180°].2). Loosen the trim ring to adjust the pan position [0° to 360°].3). Loosen the R adjusting screw to adjust the rotation position [0° to 360°].6. Tighten screws and the trim ring to finish the installation. 2.1.2 Ceiling/Wall Mounting with Junction Box Before you start:You need to purchase a junction box in advance. Steps:1. Paste the drill template on the ceiling/wall .2. Drill screw holes and the cable hole on the ceiling according to the drill template.3. Take apart the junction box, and align the screw holes of the camera with those on the Junction box’s cover.4. Attach the camera on the junction box’s cover with supplied screws.Figure 2-3Attach the Camera on the Junction B ox’sCover5.Secure the junction box’s body on the ceiling/wallwith supplied screws.Junction BoxBodyFigure 2-4Secure the Junction Box on the Wall/Ceiling 6.Route the cables through the bottom cable hole, orthe side cable hole of the junction box.bine the junction box cover with its body.Figure 2-5Combine the Junction Box Cover back to itsBody8.Repeat the step 4 to 6 of 2.1.1Ceiling/WallMounting without Junction Box to finish theinstallation.3Menu DescriptionPlease follow the steps below to call the menu. Note:The actual display may vary with your camera model. Steps:1.Connect the camera with the TVI DVR, and themonitor, shown as the figure 3-1.Figure 3-1Connection2.Power on the camera, TVI DVR, and the monitor toview the image on the monitor.3.Click PTZ Control to enter the PTZ Control interface.4.Call the camera menu by clicking button, or callthe preset No. 95.Figure 3-2Main Menu Overview5.Click the direction arrow to control the camera.1).Click up/down direction button to select theitem.2).Click Iris + to confirm the selection.3).Click left/right direction button to adjust thevalue of the selected item.3.1VIDEO FORMATYou can set the video format to 5MP@20fps,4MP@30fps, 4MP@25fps, 2MP@30fps, or2MP@25fps.3.2EXPOSUREEXPOSURE MODEYou can set the EXPOSURE MODE to GLOBAL, BLC, HLC, or DWDR.●GLOBALGLOBAL refers to the normal exposure mode which adjusts lighting distribution, variations, andnon-standard processing.●BLC (Backlight Compensation)BLC (Backlight Compensation) compensates light to the object in the front to make it clear, but this may cause the over-exposure of the background where the light is strong.●HLC (Highlight Compensation)HLC stands for highlight compensation. The camera detects the strong spots (the over-exposure portion of image), then reduce the brightness of the strong spots to improve the overall images.●DWDR (Digital Wide Dynamic Range)Digital wide dynamic range gives the camera the ability to view dark areas of the given image as well as extremely lighted portions of the image, or areas of high contrast.AGC (Auto Gain Control)It optimizes the clarity of the image in poor light conditions. The AGC level can be set to HIGH, MEDIUM, or LOW.Note:The noise will be amplified when setting the AGC level.3.3DAY/NIGHTCOLOR, B&W (Black and White), and AUTO are selectable for DAY/NIGHT switch.COLORThe image is colorful in day mode all the time.B&W (Black and White)The image is black and white all the time, and the IR LIGHT turns on in the poor light conditions.You can turn on/off the IR LIGHT and set the value of SMART IR in this menuFigure 3-3DAY/NIGHT●IR LIGHTYou can turn on/off the IR LIGHT to meet the requirements of different circumstances.●SMART IRThe Smart IR function is used to adjust the light to its most suitable intensity, and prevent the image from over exposure.AUTOAutomatically switch Color, or B&W (Black and White) according to actual scene brightness.You can turn on/off the IR LIGHT, and set the value of SMART IR in this menu.Figure 3-4DAY/NIGHT●IR LIGHTYou can turn on/off the IR LIGHT to meet the requirements of different circumstances.●SMART IRThe Smart IR function is used to adjust the light to its most suitable intensity, and prevent the image from over exposure.●D→ N Threshold (Day to Night Threshold)Day to Night Threshold is used to control the sensitivity of switching the day mode to the night mode. You can set the value from 1 to 9. The larger the value is, the more sensitive the camera is.●N→ D Threshold (Night to Day Threshold)Night to Day Threshold is used to control the sensitivity of switching the night mode to the day mode. You can set the value from 1 to 9. The larger the value is, the more sensitive the camera is.3.4VIDEO SETTINGSMove the cursor to VIDEO SETTINGS and click Iris+ to enter the submenu. IMAGE MODE, WHITE BALANCE, BRIGHTNESS, CONTRAST, SHARPNESS, SATURATION, DNR, and MIRROR are adjustable.Figure 3-5VIDEO SETTINGSIMAGE MODEIMAGE MODE is used to adjust the image saturation, and you can set it to STD (Standard) or HIGH-SAT (High Saturation).WHITE BALANCEWhite balance, the white rendition function of the camera, is to adjust the color temperature according to the environment. It can remove unrealistic color casts in the image. You can set WHITE BALANCE mode to AUTO, or MANUAL.●AUTOUnder AUTO mode, white balance is being adjusted automatically according to the color temperature of the scene illumination.MANUALYou can set the R-GAIN/B-GAIN value to adjust the shades of red/blue color of the image.Figure 3-6MWB MODE BRIGHTNESSBrightness refers to the brightness of the image. You can set the brightness value from 1 to 9 to darken or brighten the image. The greater the value is, the brighter the image is.CONTRASTThis feature enhances the difference in color and light between parts of an image.SHARPNESSSharpness determines the amount of detail an imaging system can reproduce.SATURATIONSaturation is the proportion of pure chromatic color in the total color sensation. Adjust this feature to change the saturation of the color.DNRDNR refers to digital noise reduction.This function reduces noise in video stream.MIRROROFF, H, V, and HV are selectable for mirror.OFF: The mirror function is disabled.H: The image flips 180° horizontally.V: The image flips 180° vertically.HV: The image flips 180° both horizontally and vertically.3.5AUDIO SETTINGSUnder the AUTO SETTINGS sub-menu, you can set the mode to ON or OFF. Set the LEVEL to a higher value to raise the volume.Figure 3-7AUTO SETTINGS3.6FACTORY DEFAULTReset all the settings to the factory default.3.7EXITMove the cursor to EXIT and click Iris+ to exit the menu.3.8SAVE & EXITMove the cursor to SAVE & EXIT and click Iris+ to save the settings, and exit the menu.UD14642B-B。

1、安装：a）打开金麒麟安全助手，搜索关键字Capture，找到软件点击安装，默认安装路径：C:\Program Files (x86)\Captura 该路径安装时无法直接更改。

b）安装后在桌面会生成两个快捷方式：Captura 和 Captura使用说明，图标样式如下：使用说明在读完之后可随时删除，软件运行快捷方式建议保留，快捷方式如果不小心全部删除，请到默认安装路径中查找。

2、使用：打开软件：双击桌面上的Captura快捷方式，打开软件，软件默认为英语界面，可参照变更为中文界面切换中文界面：设置插件路径：录制MP4格式时，可能会提示选择插件，点击右上角的设置按钮，进入FFmpeg设置界面，选择的放置目录即可。

默认放在软件的安装路径下，选择前可到目录中确认，如果缺失，请参照1安装重新安装一下软件。

开始录屏：开始录屏前，先进行设置A.录制动作选择建议选择光标、鼠标点击、键盘三项，视频录制后可看出录制时的操作动作。

B.视频源选择：1：仅录制音频；2：录制电脑上的所有屏幕，如果有多个显示器会一起录制；3：选择一个录制的显示器，如果有多个显示器，需要选择一个需要录制的显示器，其他显示器不会被录制；4：选择一个录制的窗口；5：定制一个录制的区域。

C.视频编码器选择：建议选择FFmpeg，录制MP4格式视频，FPS建议：10，质量建议：70% ，FPS越高，视频文件越大，但是视频流畅性越好，如果对流畅性有要求，可将FPS调整至24，FPS数值翻倍意味着视频大小也会翻倍。

D.输出目录选择：输出目录代表视频存放位置，可自行调整E.开始录制全部设置完毕后，点击左上角红色按钮，开始录制，红色圆形按钮变为红色方形按钮代表正在录制。

录制过程中如果有事情离开可点击暂停按钮，回来后再点击一下暂停即可恢复录制。

准备录制状态开始录制状态停止\保存录屏：点击红色方形按钮停止录像，录像文件会保存到的设置的目录中，点击右上角的文件夹按钮可快速进入该目录。

斑驴APP 操作手册（用户版）2017年3月10日目录1引言 0项目名称 0编写目的 0术语和简约语 0系统环境配置 0按钮定义 02 功能概述 (1)功能结构 (1)3 斑驴功能说明 (1)登录/注册 (1)功能说明 (1)操作步骤 (2)足迹 (2)个人足迹 (2)团体足迹 (3)达人 (4)功能说明 (4)操作步骤 (4)活动 (4)功能说明 (4)操作步骤 (4)我的 (6)个人资料 (6)我的活动 (7)我的足迹 (7)我的收藏 (8)下载管理 (8)我的订单 (9)我的消息 (9)设置 (11)4 附件 (11)1引言1.1项目名称斑驴1.2编写目的本操作手册主要介绍斑驴客户端app的操作方法，指导用户怎么使用app客户端。

预期读者：测试工程师、项目管理人员、最终业务用户。

阅读建议：最终业务用户需要阅读全部内容，其他人员以此文档作为了解和使用本系统的参考手册。

若本操作指南的界面截图与实际系统界面有所差异，则使用时请以系统的实际界面为准1.3术语和简约语无1.4系统环境配置软件操作系统：Windows2000/XP/2003，Linux，UNIX系统浏览器：（Android手机）支持手机UC浏览器，百度浏览器，QQ浏览器等（Ios手机）支持Safari浏览器1.5按钮定义在后台系统功能模块上，出现的按钮如下：确认所作的输入/选择正确无误, 予以确认。

本屏所需之操作完成。

视应用需要退出或不退出本屏。

取消取消所作的任何输入/选择/查询, 视应用需要退出或不退出本屏。

表按钮属性2功能概述2.1功能结构斑驴整体分为斑驴app客户端（分为Android版和ios版），后台管理两部分。

斑驴app 包括（达人，足迹，活动，我的等几大模块）；后台包括（客户系统，信息管理，商户系统，游记系统，消息服务，系统管理等几大模块），其中斑驴app的功能示意图如下：图4-1 功能示意图功能说明：第一步在Android市场中的应用宝（ios在app store）搜索“斑驴”，下载斑驴app并安装第二步打开斑驴app，如需登录（操作见登录/注册）第三步登录后及可发布个人足迹（操作见个人足迹），发布团体足迹（操作见团体足迹），达人（操作见达人），活动（操作见活动），我的（操作见我的），我的消息（操作见我的消息）3斑驴功能说明3.1登录/注册3.1.1功能说明该功能主要是提供用户应用斑驴平台时进行登录与注册（打开应用首次进入达人页面）3.1.2操作步骤首次打开应用，进入欢迎页后跳转至达人页面。