Presentation is loading. Please wait.

Presentation is loading. Please wait.

Angular Variables. Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Angular Variables. Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This."— Presentation transcript:

1 Angular Variables

2 Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This matches 360°  The distance around a circle is s = r , where  is in radians.  r  The angular displacement is 

3 Angular Velocity  For circular motion, only the time rate of change of the angle matters.  The time rate of change of the angle is called the angular velocity. Symbol (  )Symbol (  ) Units (rad/s or 1/s = s -1 )Units (rad/s or 1/s = s -1 )

4 Velocity and Angular Velocity  Velocity has an angular equivalent. Linear velocity (v)Linear velocity (v) Angular velocity (  )Angular velocity (  )  They are related, since the displacement is related to the angle.

5 Cycles or Radians  Frequency is measured in cycles per second.  There is one cycle per period.  Frequency is the inverse of the period, f =1/T.  Angular velocity is measured in radians per second.  There are 2  radians per period.  Angular velocity,  = 2  / T.  Angular velocity,  = 2  f.

6 Angular Acceleration  In uniform circular motion there is a constant radial acceleration. a r = v 2 / r = r  2  If the angular velocity changes there is acceleration tangent to the circle as well as radially. The angular acceleration is 

7 Uniform or Nonuniform  Centripetal acceleration is constant for uniform circular motion.  It changes for nonuniform circular motion. The magnitude increases or decreases.The magnitude increases or decreases. There is a tangential acceleration.There is a tangential acceleration. Net vector is not antiparallel to radius.Net vector is not antiparallel to radius.

8 Rotational Motion  Kinematic equations with constant linear acceleration were defined. v av = ½ (v 0 + v)v av = ½ (v 0 + v) v = v 0 + atv = v 0 + at x = x 0 + v 0 t + ½at 2x = x 0 + v 0 t + ½at 2 v 2 = v 0 2 + 2a(x - x 0 )v 2 = v 0 2 + 2a(x - x 0 )  Kinematic equations with constant angular acceleration are similar.  av = ½ (  0 +  )  =  0 +  t  =  0 +  0 t + ½  t 2  2 =  0 2 + 2  (  -  0 ) next

Download ppt "Angular Variables. Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This."

Similar presentations

Rotation, Angular Momentum and Gravity

Rotation, Angular Momentum and Gravity
Rotational Kinematics

Rotational Kinematics
Angular Kinematics Chapter 6 KINE 3301 Biomechanics of Human Movement.

Angular Kinematics Chapter 6 KINE 3301 Biomechanics of Human Movement.
8.4 Angular Variables and Tangential Variables

8.4 Angular Variables and Tangential Variables
Physics 101: Lecture 16, Pg 1 Physics 101: Lecture 16 Rotational Kinematics l Today’s lecture will cover Textbook Chapter 8.

Physics 101: Lecture 16, Pg 1 Physics 101: Lecture 16 Rotational Kinematics l Today’s lecture will cover Textbook Chapter 8.
Circular Motion. Position on a Circle  Motion in a circle is common.  The most important measure is the radius ( r ).  The position of a point on the.

Circular Motion. Position on a Circle  Motion in a circle is common.  The most important measure is the radius ( r ).  The position of a point on the.
Chapter 10 Rotational Motion

Chapter 10 Rotational Motion
Angular Velocity. Rotational Motion When all points in a body move in circles Can be described in terms of angular velocity and angular acceleration θ.

Angular Velocity. Rotational Motion When all points in a body move in circles Can be described in terms of angular velocity and angular acceleration θ.
Chapter 8: Rotational Kinematics Lecture Notes

Chapter 8: Rotational Kinematics Lecture Notes
Physics 106: Mechanics Lecture 01

Physics 106: Mechanics Lecture 01
Angular Motion. Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This.

Angular Motion. Measuring a Circle  We use degrees to measure position around the circle.  There are 2  radians in the circle. This matches 360°This.
Roller Coasters. Uniform or Nonuniform  Centripetal acceleration is constant for uniform circular motion.  It changes for nonuniform circular motion.

Roller Coasters. Uniform or Nonuniform  Centripetal acceleration is constant for uniform circular motion.  It changes for nonuniform circular motion.
Rotational Motion. Rotational motion is the motion of a body about an internal axis. In rotational motion the axis of motion is part of the moving object.

Rotational Motion. Rotational motion is the motion of a body about an internal axis. In rotational motion the axis of motion is part of the moving object.
Circular Motion Tangential & Angular Acceleration

Circular Motion Tangential & Angular Acceleration
Ch 7 - Circular Motion Circular motion: Objects moving in a circular path.

Ch 7 - Circular Motion Circular motion: Objects moving in a circular path.
Rotational Motion. ---- = ------------ Uniform Circular Motion r r v2v2 v1v1 7v7v 2 2 a b Chord ab c d e f Using similar triangles abc def Where r is.

Rotational Motion = Uniform Circular Motion r r v2v2 v1v1 7v7v 2 2 a b Chord ab c d e f Using similar triangles abc def Where r is.
Ch 8. Rotational Kinematics

Ch 8. Rotational Kinematics
Chapter 8 Rotational Kinematics. The axis of rotation is the line around which an object rotates.

Chapter 8 Rotational Kinematics. The axis of rotation is the line around which an object rotates.
Chapter 4:Kinematics in Two Dimensions

Chapter 4:Kinematics in Two Dimensions
Rotational Motion 2 Coming around again to a theater near you.

Rotational Motion 2 Coming around again to a theater near you.

Similar presentations

Ads by Google