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GENERAL PHYSICS II Math. Edu. Program Yohanes Edi Gunanto TC - UPH.

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Presentation on theme: "GENERAL PHYSICS II Math. Edu. Program Yohanes Edi Gunanto TC - UPH."— Presentation transcript:

1 GENERAL PHYSICS II Math. Edu. Program Yohanes Edi Gunanto TC - UPH

2 Circular Motion

3 Position and Displacement

4 Direction of Velocity

5

6 Speed and Angular Speed The speed of the object undergoing circular motion is proportional to the rate of change of the angle with time: Angular speed:

7 Circular Motion: ConstantSpeed, Period, and Frequency In one period the object travels a distance equal to the circumference: Period: the amount of time to complete one circular orbitof radius R Frequency is the inverse of the period:

8 Checkpoint Problem: Ball andspring One end of a spring is attached to the central axis of a motor. The axis of the motor is in the vertical direction. A small ball of mass m 2 is then attached to the other end of the spring. The motor rotates at a constant frequency f. Neglect the gravitational force exerted on the ball. Assume that the ball and spring rotate in a horizontal plane. The spring constant is k. Let r 0 denote the unstretched length of the spring. (i) How long does it take the ball to complete one rotation? (ii) What is the angular frequency of the ball in radians per sec?

9 Checkpoint Problem: Whirling Stone A stone, attached to a wheel and held in place by a string, is whirled in circular orbit of radius R in a vertical plane. Suppose the string is cut when the stone is at position 2 in the figure, and the stone then rises to a height h above the point at position 2. What was the angular velocity of the stone when the string was cut? Give your answer in terms of R, h and g.

10 Acceleration and Circular Motion When an object moves in a circular orbit,the direction of the velocity changes andthe speed may change as well. For circular motion, the acceleration will always have a radial component (a r ) dueto the change in direction of velocity The acceleration may have a tangentialcomponent if the speed changes (a t ).When a t =0, the speed of the objectremains constant

11 Direction of Radial Acceleration: Uniform Circular Motion

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13 Change in Magnitude of Velocity : Uniform Circular Motion

14 Radial Acceleration: Constant Speed Circular Motion

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16 Alternative forms of Magnitude of Radial Acceleration Parameters: speed v, angular speed ω, angular frequency f, period T

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21 THANKS

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