Question 2 part 1 -Time rate of change in an angular displacement is called? Hint: part...

10) When the moment of inertia is very large, what does this mean about the rotational...

10) When the moment of inertia is very large, what does this mean about the rotational kinetic energy of a rigid body? 11)Lever Arm or moment arm, Line of Action are taken into consideration when trying to determine what? 12)An object that can be deformed and returned to its original shape is said to be? PLEASE TYPE THE ANSWERS

A) Rotational kinetic energy involves: Velocity, mass, acceleration; Velocity and mass only; Angular velocity, moment of...

A) Rotational kinetic energy involves: Velocity, mass, acceleration; Velocity and mass only; Angular velocity, moment of inertia, angular acceleration; Angular velocity and moment of inertia only. B) Any object’s moment of inertia depends on its: Size only; Size and shape only; Mass only; Size, shape and mass. C) For a given mass, the largest moment of inertia will be when it is shaped into a: Ring; Sphere; Disk. D) For a given mass, the largest moment of inertia will be...

Question 1 part 1 -Change in momentum is equal to what? part 2 -The Law of...

Question 1 part 1 -Change in momentum is equal to what? part 2 -The Law of Conservation of Momentum tells us? part 3 -Why is it important to know the Center of Mass or “Center of Gravity” for an object? part 4 -In physics, angular displacement (amount of rotation) can be measure in either... (blank 1) or (blank 2)

Please answer all parts. Thank you! 1. Explain the correspondence that lets us easily translate between...

Please answer all parts. Thank you! 1. Explain the correspondence that lets us easily translate between linear motion and rotational motion. What are the linear analogues of the rotational quantities we have discussed in lecture i.e. angle, angular velocity, angular acceleration and moment of inertia? Where does the correspondence seem to fail? 2. Explain, in words, how we know that a freely spinning asteroid in space is rotating about an axis that passes through its center of mass? 3. You...

1. A yo-yo consists of two solid disks, each of mass M and radius 3R. The...

1. A yo-yo consists of two solid disks, each of mass M and radius 3R. The two disks are connected by a rod of radius R and negligible mass. a.) The moment of inertia of the yo-yo about its axis of symmetry is of the form ???^2 where ? is a number. What is ?? b.) Draw the extended free body diagram for the yo-yo and use it to write Newton's 2nd law in terms of the magnitude of the...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt...

1. You are being hunted by a raptor. It corners you, and begins to charge, qt a velocity of 20 m/s. You have constructed a trap. It consists of a trip wire that will knock the raptor down and transfer all of its KE to a phaser rifle that requires 80 kJ of energy to fire directly at your foe. If the raptor has a mass of 150 kg, will the rifle gain enough energy to fire? a)no b)not enough...

Please answer all, Thank you. 1. A firework is designed so that when it is fired...

Please answer all, Thank you. 1. A firework is designed so that when it is fired directly upwards, it explodes and splits into three equal-massed parts at its peak. Someone launches the firework directly upwards and measures the locations of two of the pieces of the firework. They find that one piece landed 2 meters to the left and another piece landed two meters in front of them. Where did the third piece of land? 2. A Newton's cradle is...

From this week's lab you learned that the change in gravitational potential energy of a falling...

From this week's lab you learned that the change in gravitational potential energy of a falling body can be captured and stored as a rotational kinetic energy of a spinning disk. This gave you the idea of a regenerative driver for an elevator in a tall building. When an elevator goes down the corresponding change in the gravitational potential energy of the elevator is transformed into the rotational kinetic energy of a solid disk-shape flywheel which can be extracted and...

1. Starting from rest, a CD takes 3.0 s to reach its operating angular velocity of...

1. Starting from rest, a CD takes 3.0 s to reach its operating angular velocity of 450 rpm. The mass of a CD is 17 g and its diameter is 12 cm. You may assume that the small opening at the center of the CD is unimportant when calculating the rotational inertia. Assume that the angular acceleration is constant. a. What is the rotational kinetic energy of the CD after it has completely spun up? b. How high off the...

1. Review your notes from 02-28 and your calculation of the moment of inertia of the...

1. Review your notes from 02-28 and your calculation of the moment of inertia of the "rigid rotator," two masses, 7 kg each attached to a light titanium bar (neglect this weight) separation 4.20 m rotation axis halfway between the two masses, perpendicular to the bar. Our calculation of moment of inertia Iwas I = ∑ left, right ( m r 2 ) = ( 7 k g ) ( 2.10 m ) 2 + ( 7 k g )...