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In this unit we will analyze the plane kinematics of a rigid body ➢The study is very important for the design of gears, cams and mechanisms, often in mechanical operations, THE PLANE MOVEMENT. It is when all the particles of a rigid bodies move along trajectories that are equidistant from a fixed plane, the body is said to experience fixed plane motion
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Lab 2/Lab 2- Kinematics.pdf 1/4/2017 Lab 2: Kinematics https://moodle.straighterline.com/pluginfile.php/72219/mod_resource/content/17/CourseRoot/html/lab004s001.html 1/20 Learning Objec뙕ves Disᣊ�nguish between scalar and vector quanᣊ�ᣊ�es Apply kinemaᣊ�c equaᣊ�ons to 1‐D and projecᣊ�le moᣊ�on Predict posiᣊ�on, velocity, and acceleraᣊ�on vs. ᣊ�me graphs Calculate average and instantaneous velocity or acceleraᣊ�on Determine that x and y components are independent of each other Relate velocity, radius, and ᣊ�me period to uniform circular moᣊ�on. Explain the direcᣊ�on of acceleraᣊ�on during uniform circular moᣊ�on 1‐D Kinema뙕cs 1‐D kinemaᣊ�cs occurs when an object travels in one dimension and can be described using words, equaᣊ�ons and graphs. Linear mo뙕on describes how an object will move horizontally or verᣊ�cally with constant acceleraᣊ�on, how an object will 1/4/2017 Lab 2: Kinematics https://moodle.straighterline.com/pluginfile.php/72219/mod_resource/content/17/CourseRoot/html/lab004s001.html 2/20 Figure 1: Pool balls in moᾷon demonstrate 1‐D kinemaᾷcs. Figure 2: Line secant to the path of the object. travel if dropped from the side of a cliff, and the path it will follow if thrown straight up into the air. Keep in mind the moᣊ�on of an object is relaᣊ�ve to the viewer. Even though you do not feel like you are in moᣊ�on right now, you are on planet earth that has rotaᣊ�onal moᣊ�on in addiᣊ�on to orbital moᣊ�on around the sun. In almost all cases here moᣊ�on will be relaᣊ�ve to the Earth. Scalar and Vector Quan뙕뙕es In physics, quanᣊ�ᣊ�es can be scalar or vector. The difference between the two lies in direcᣊ�on. Scalar quanᣊ�ᣊ�es include magnitudes, which are numerical measurements. The distance an object has traveled or the speed of an object is a scalar quanᣊ�ty. Scalars do not take direcᣊ�on into consideraᣊ�on and can be described with only a number and a unit. For example, somebody might say the temperature outside is 70°F. Seventy is the magnitude, and Fahrenheit is the unit; there is no direcᣊ�on associated with the quanᣊ�ty. Vector quanᣊ�ᣊ�es, on the other hand, include magnitude and direcᣊ�on. The displacement from an object's iniᣊ�al posiᣊ�on, velocity, and acceleraᣊ�on are vector quanᣊ�ᣊ�es. The direcᣊ�on of vectors can be described as being in the posiᣊ�ve direcᣊ�on, in the negaᣊ�ve direcᣊ�on, north, south, east, west, leĀ, right, up, down, etc. One might describe an airplane's velocity as 450 miles per hour due west where both magnitude and direcᣊ�on are given. It is important to disᣊ�nguish between scalar and vector quanᣊ�ᣊ�es when trying to understand kinemaᣊ�cs. Speed, Velocity, and Accelera뙕on You may be familiar with speed outside of the physics classroom. When you drive in a car you are traveling a distance over a certain amount of ᣊ�me: a speed. How then is velocity different from speed? Velocity (v) is a vector quanᣊ�ty described as the rate at which an object's posiᣊ�on changes divided by the ᣊ�me the ...
Lab 2Lab 2- Kinematics.pdf142017 Lab 2 Kinematicsh.docx
Lab 2Lab 2- Kinematics.pdf142017 Lab 2 Kinematicsh.docx
smile790243
A thorough detailed presentation of chapter motion for class 9th.
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BHAVAN VIDYALAYA, PANCHKULA
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Dear Students of grade 8, this presentation has been made for you to revise, and to copy what would you miss out of your class work. I hope to be useful for all of you.
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chapter2powerpoint-090816163937-phpapp02.ppt
Michael Intia
Displacement,speed
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Nikhil Sharma
After going through this module, you are expected to: describe the motion of an object in terms of distance or displacement, speed or velocity and acceleration (S7FE-IIIa-1); perform activities on speed, velocity and acceleration; and compute for the speed, velocity and acceleration.
MOTION.pptx
MOTION.pptx
jeromevital1
this project is basically based "motion", the way it's directly or indirectly linked to us. Viewing this power point presentation will enable you to study as a whole in descriptive way.In physics, motion is a change in position of an object with respect to time. Motion is typically described in terms of displacement, distance (scalar), velocity, acceleration, time and speed.Motion of a body is observed by attaching a frame of reference to an observer and measuring the change in position of the body relative to that frame n If the position of a body is not changing with the time with respect to a given frame of reference the body is said to be at rest, motionless, immobile, stationary, or to have constant (time-invariant) position. An object's motion cannot change unless it is acted upon by a force, as described by Newton's first law. Momentum is a quantity which is used for measuring motion of an object. An object's momentum is directly related to the object's mass and velocity, and the total momentum of all objects in an isolated system (one not affected by external forces) does not change with time, as described by the law of conservation of momentum. Hope you will like it and feedbacks are welcomed.
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Mechanics
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