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AP Physics C Rotational Motion

C
Calvert County Public Schools

The document discusses rotational motion and kinematics. It defines key concepts like the radian, angular velocity, and angular acceleration. It describes how to relate linear and rotational motion through equations. It also introduces the concept of moment of inertia, which describes an object's resistance to changes in rotational motion based on its mass distribution. Different formulas are given for calculating the moment of inertia of objects like rods, disks, and point masses rotating around different axes.

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Rotational Motion I AP Physics C
The radian ,[object Object],[object Object],[object Object],[object Object],If we take the radius of a circle and LAY IT DOWN on the circumference, it will create an angle whose arc length is equal to R . In other words, one radian angle is subtends an arc length  s equal to the radius of the circle ( R )
The radian Half a radian would subtend an arc length equal to half the radius and 2 radians would subtend an arc length equal to two times the radius. A general Radian Angle (  ) subtends an arc length (  s) equal to R. The theta in this case represents ANGULAR DISPLACEMENT.
Angular Velocity Since velocity is defined as the rate of change of displacement. ANGULAR VELOCITY is defined as the rate of change of ANGULAR DISPLACEMENT .
Translation vs. Rotation Translational motion tells you THREE THINGS • magnitude of the motion and the units • Axis the motion occurs on • direction on the given axis Example: v =3i This tells us that the magnitude is 3 m/s, the axis is the "x" axis and the direction is in the "positive sense". Rotational motion tells you THREE THINGS : • magnitude of the motion and the units • the PLANE in which the object rotates in • the directional sense ( counterclockwise or clockwise) Counterclockwise rotations are defined as having a direction of POSITVE K motion on the "z" axis
Rotation Example: Unscrewing a screw or bolt = 5 rad/sec k Clockwise rotations are defined as having a direction of NEGATIVE K motion on the "z" axis Example: Tightening a screw or bolt = -5 rad/sec k
Angular Acceleration Once again, following the same lines of logic. Since acceleration is defined as the rate of change of velocity. We can say the ANGULAR ACCELERATION is defined as the rate of change of the angular velocity. Also, we can say that the ANGULAR ACCELERATION is the TIME DERIVATIVE OF THE ANGULAR VELOCITY . All the rules for integration apply as well.
Combining motions –Tangential velocity First we take our equation for the radian measure and divide BOTH sides by a change in time . The left side is simply the equation for LINEAR velocity. BUT in this case the velocity is TANGENT to the circle ( according to Newton's first law ). Therefore we call it TANGENTIAL VELOCITY . Inspecting the right side we discover the formula for ANGULAR VELOCITY. Therefore, substituting the appropriate symbols we have a formula that relates Translational velocity to Rotational velocity.
Tangential acceleration and rotational kinematics Using the same kind of mathematical reasoning we can also define Linear tangential acceleration . Inspecting each equation we discover that there is a DIRECT relationship between the Translational quantities and the Rotational quantities. We can therefore RE-WRITE each translational kinematic equation and turn it into a rotational kinematic equation.
Example ,[object Object],30.7 rad/s
Rotational Kinetic Energy and Inertia ,[object Object],We now have an expression for the rotation of a mass in terms of the radius of rotation. We call this quantity the MOMENT OF INERTIA (I) with units kgm 2
Moment of Inertia, I m1 m2 Consider 2 masses, m1 & m2, rigidly connected to a bar of negligible mass. The system rotates around its CM. This is what we would see if m1 = m2. Suppose m1>m2. m1 m2 r1 r2 Since it is a rigid body, the have the SAME angular velocity,  The velocity of the center, v cm of mass is zero since it is rotating around it. We soon see that the TANGENTIAL SPEEDS are NOT EQUAL due to different radii.
Moment of Inertia, I ,[object Object],m1 m2 r1 r2 So this example clearly illustrates the idea behind the SUMMATION in the moment of inertia equation.
Example A very common problem is to find the velocity of a ball rolling down an inclined plane. It is important to realize that you cannot work out this problem the way you used to. In the past, everything was SLIDING. Now the object is rolling and thus has MORE energy than normal. So let’s assume the ball is like a thin spherical shell and was released from a position 5 m above the ground. Calculate the velocity at the bottom of the incline. 7.67 m/s If you HAD NOT included the rotational kinetic energy, you see the answer is very much different.
Example: Moment of Inertia, I m1 m2 Let's use this equation to analyze the motion of a 4-m long bar with negligible mass and two equal masses(3-kg) on the end rotating around a specified axis. EXAMPLE #1 -The moment of Inertia when they are rotating around the center of their rod. EXAMPLE #2 -The moment if Inertia rotating at one end of the rod m1 m2 24 kgm 2 48 kgm 2
Example cont’ ,[object Object],m1 m2 2m 120 kgm 2 As you can see, the FARTHER the axis of rotation is from the center of mass, the moment of inertia increases. We need an expression that will help us determine the moment of inertia when this situation arises.
Parallel Axis Theorem ,[object Object],It basically states that the Moment of Inertia ( I p ) around any axis "P" is equal to the known moment of inertia (I cm ) about some center of mass plus M ( the total mass of the system) times the square of " d " ( the distance between the two parallel axes) Using the prior example let’s use the parallel axis theorem to calculate the moment of inertia when it is rotating around one end and 2m from a fixed axis.
Exam – Parallel Axis Theorem m1 m2 d = 2m m1 m2 4m (not drawn to scale) 48 kgm 2 120 kgm 2
Continuous Masses ,[object Object],This suggests that we will take small discrete amounts of mass and add them up over a set of limits. Indeed, that is what we will do. Let’s look at a few example we “MIGHT” encounter. Consider a solid rod rotating about its CM. Will, I =  mr 2 , be the equation for a rod?
The rod We begin by using the same technique used to derive the center of mass of a continuous body. dr The CM acts as the origin in the case of determining the limits.
Your turn ,[object Object],dr As you can see you get a completely different expression depending on HOW the body is rotating.
The disk R r dx dx 2  r
The bottom line.. ,[object Object],[object Object]

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AP Physics C Rotational Motion

  • 1. Rotational Motion I AP Physics C
  • 2.
  • 3. The radian Half a radian would subtend an arc length equal to half the radius and 2 radians would subtend an arc length equal to two times the radius. A general Radian Angle (  ) subtends an arc length (  s) equal to R. The theta in this case represents ANGULAR DISPLACEMENT.
  • 4. Angular Velocity Since velocity is defined as the rate of change of displacement. ANGULAR VELOCITY is defined as the rate of change of ANGULAR DISPLACEMENT .
  • 5. Translation vs. Rotation Translational motion tells you THREE THINGS • magnitude of the motion and the units • Axis the motion occurs on • direction on the given axis Example: v =3i This tells us that the magnitude is 3 m/s, the axis is the "x" axis and the direction is in the "positive sense". Rotational motion tells you THREE THINGS : • magnitude of the motion and the units • the PLANE in which the object rotates in • the directional sense ( counterclockwise or clockwise) Counterclockwise rotations are defined as having a direction of POSITVE K motion on the "z" axis
  • 6. Rotation Example: Unscrewing a screw or bolt = 5 rad/sec k Clockwise rotations are defined as having a direction of NEGATIVE K motion on the "z" axis Example: Tightening a screw or bolt = -5 rad/sec k
  • 7. Angular Acceleration Once again, following the same lines of logic. Since acceleration is defined as the rate of change of velocity. We can say the ANGULAR ACCELERATION is defined as the rate of change of the angular velocity. Also, we can say that the ANGULAR ACCELERATION is the TIME DERIVATIVE OF THE ANGULAR VELOCITY . All the rules for integration apply as well.
  • 8. Combining motions –Tangential velocity First we take our equation for the radian measure and divide BOTH sides by a change in time . The left side is simply the equation for LINEAR velocity. BUT in this case the velocity is TANGENT to the circle ( according to Newton's first law ). Therefore we call it TANGENTIAL VELOCITY . Inspecting the right side we discover the formula for ANGULAR VELOCITY. Therefore, substituting the appropriate symbols we have a formula that relates Translational velocity to Rotational velocity.
  • 9. Tangential acceleration and rotational kinematics Using the same kind of mathematical reasoning we can also define Linear tangential acceleration . Inspecting each equation we discover that there is a DIRECT relationship between the Translational quantities and the Rotational quantities. We can therefore RE-WRITE each translational kinematic equation and turn it into a rotational kinematic equation.
  • 10.
  • 11.
  • 12. Moment of Inertia, I m1 m2 Consider 2 masses, m1 & m2, rigidly connected to a bar of negligible mass. The system rotates around its CM. This is what we would see if m1 = m2. Suppose m1>m2. m1 m2 r1 r2 Since it is a rigid body, the have the SAME angular velocity,  The velocity of the center, v cm of mass is zero since it is rotating around it. We soon see that the TANGENTIAL SPEEDS are NOT EQUAL due to different radii.
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  • 14. Example A very common problem is to find the velocity of a ball rolling down an inclined plane. It is important to realize that you cannot work out this problem the way you used to. In the past, everything was SLIDING. Now the object is rolling and thus has MORE energy than normal. So let’s assume the ball is like a thin spherical shell and was released from a position 5 m above the ground. Calculate the velocity at the bottom of the incline. 7.67 m/s If you HAD NOT included the rotational kinetic energy, you see the answer is very much different.
  • 15. Example: Moment of Inertia, I m1 m2 Let's use this equation to analyze the motion of a 4-m long bar with negligible mass and two equal masses(3-kg) on the end rotating around a specified axis. EXAMPLE #1 -The moment of Inertia when they are rotating around the center of their rod. EXAMPLE #2 -The moment if Inertia rotating at one end of the rod m1 m2 24 kgm 2 48 kgm 2
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  • 18. Exam – Parallel Axis Theorem m1 m2 d = 2m m1 m2 4m (not drawn to scale) 48 kgm 2 120 kgm 2
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  • 20. The rod We begin by using the same technique used to derive the center of mass of a continuous body. dr The CM acts as the origin in the case of determining the limits.
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  • 22. The disk R r dx dx 2  r
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