6.4 Rolling Motion

Cards (50)

In rolling motion, translational speed refers to the speed at which the center of mass moves
Match the type of kinetic energy with its description and formula:
Translational Kinetic Energy ↔️ Energy due to linear movement; $KE_{trans} =$ $\frac{1}{2}mv^{2}$
Rotational Kinetic Energy ↔️ Energy due to spinning around an axis; $KE_{rot} =$ $\frac{1}{2}I\omega^{2}$
Pure rolling occurs when the contact point between the object and the surface has zero relative velocity. 
True
What is the contact point velocity in rolling with slipping?
Non-zero
The angular speed in rotational kinetic energy is denoted by \omega
What type of friction is involved in rolling with slipping?
Kinetic friction
Rolling with slipping uses static friction.
False
The formula for translational kinetic energy is $KE_{trans}$ = $\frac{1}{2}mv^{2}$ .
The total momentum in a rolling system is the sum of translational and rotational momentum. 
True
Match the momentum type with its formula:
Translational ↔️ $p_{trans} =$ $mv$
Rotational ↔️ $L =$ $I\omega$
Total ↔️ $\vec{p}_{total} =$ $\vec{p}_{trans} +$ $\vec{L}$
The conservation equation in rolling motion includes translational kinetic energy, rotational kinetic energy, and gravitational potential energy.
True
What is the final velocity of a solid sphere rolling down an inclined plane of height h?
v = \sqrt{\frac{10gh}{7}}</latex>
Gravitational potential energy depends on the height above a reference point.
True
What is the equation for conservation of energy in rolling motion?
$KE_{trans} +$ $KE_{rot} +$ $PE_{g} =$ $constant$
What two types of motion combine to form rolling motion?
Translation and rotation
In pure rolling, the contact point between the object and the surface has zero relative velocity. 
True
What is the formula for total kinetic energy in rolling motion?
$KE_{total} =$ $\frac{1}{2}mv^{2} +$ $\frac{1}{2}I\omega^{2}$
Match the momentum type with its description:
Translational Momentum ↔️ Linear motion of center of mass
Rotational Momentum ↔️ Rotation around axis
What is the formula for rotational kinetic energy?
$KE_{rot} =$ $\frac{1}{2}I\omega^{2}$
The conservation of energy equation for rolling motion is KE_{trans} + KE_{rot} + PE_{g} = constant</latex>
A solid sphere rolls down an inclined plane of height $h$ . What is its velocity at the bottom? 
$v =$ $\sqrt{\frac{10gh}{7}}$
A solid sphere of mass 5 kg and radius 0.2 m rolls down an inclined plane of height 3 m. Calculate its linear speed at the bottom.
$v \approx 6.48 m / s$
What type of friction is involved in rolling with slipping?
Kinetic friction
Match the type of rolling motion with its characteristics:
Pure Rolling ↔️ Zero relative velocity, static friction
Rolling with Slipping ↔️ Non-zero relative velocity, kinetic friction
What is rolling motion a combination of?
Translation and rotation
What are the two main types of rolling motion?
Pure rolling and slipping
In pure rolling, the friction involved is static friction
What is the formula for total kinetic energy in rolling motion?
KE_{total} = \frac{1}{2}mv^{2} + \frac{1}{2}I\omega^{2}</latex>
What does $I$ represent in the formula for rotational kinetic energy? 
Moment of inertia
Rolling motion combines translation and rotation around an axis.
True
Pure rolling occurs when the contact point has non-zero relative velocity.
False
In pure rolling, static friction maintains grip
Order the steps to describe the key differences between pure rolling and rolling with slipping:
1️⃣ Pure rolling has zero relative velocity at the contact point.
2️⃣ Rolling with slipping has non-zero relative velocity at the contact point.
3️⃣ Pure rolling uses static friction to maintain grip.
4️⃣ Rolling with slipping uses kinetic friction due to sliding.
What is the contact point velocity in pure rolling motion?
Zero
What type of kinetic energy is due to an object's movement from one location to another?
Translational
What is the rotational kinetic energy formula?
$KE_{rot} =$ $\frac{1}{2}I\omega^{2}$
The total kinetic energy in rolling motion is the sum of translational and rotational kinetic energy.
What is conserved in a rolling system in the absence of external non-conservative forces?
Total momentum
Conservation of energy in rolling motion states that the total mechanical energy remains constant if no external non-conservative forces are present.
What does the conservation of energy in rolling motion state?
Total mechanical energy remains constant