Q2 A small marble at point A of mass 0.5 kg as shown in Figure Q2 is release downward with an initial speed of V, m/s and strikes a smooth inclined plane given tan e = 2 at point B. 4 (a) If point A is located 1 m above the impact area, calculate the speed of the marble immediately before the impact. (b) Assuming the coeffieient of restitution between marble and plane is e = 0.5, determine the speed and direction of the marble immediately after the impact. (c) Using the speed obtained in Q2 (b) and assuming a free flight motion of the marble after the impact. Predict the horizontal travel distance measuring from point B. Use your last digit of matrix number to get the value of Væ for marble initial speed. Example; If your matrix number is AD192005. A D 1 9 2 0 0 5 VE = 5 + 2 Then, VE = 7 ms-1

Q2 A small marble at point A of mass 0.5 kg as shown in Figure Q2 is release downward with an initial speed of V, m/s and strikes a smooth inclined plane given tan e = 2 at point B. 4 (a) If point A is located 1 m above the impact area, calculate the speed of the marble immediately before the impact. (b) Assuming the coeffieient of restitution between marble and plane is e = 0.5, determine the speed and direction of the marble immediately after the impact. (c) Using the speed obtained in Q2 (b) and assuming a free flight motion of the marble after the impact. Predict the horizontal travel distance measuring from point B. Use your last digit of matrix number to get the value of Væ for marble initial speed. Example; If your matrix number is AD192005. A D 1 9 2 0 0 5 VE = 5 + 2 Then, VE = 7 ms-1

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Concept explainers

Moment of Inertia

Inertia can be termed as a resistance offered by a body to change its state. A rigid body initially at rest will apply resistance when acted by an external force that tends to change its state of rest or velocity, or a body initially at motion will provide resistance in changing its state of velocity or motion for coming to a state of rest. In other words, Newton's first law of motion describes the law of inertia of a rigid body.

Question

PLS TAKE V_Æ = 1+2=3

Q2
A small marble at point A of mass 0.5 kg as shown in Figure Q2 is release downward with
an initial speed of V, m/s and strikes a smooth inclined plane given tan e = 2 at point B.
4
(a)
If point A is located 1 m above the impact area, calculate the speed of the marble
immediately before the impact.
(b)
Assuming the coeffieient of restitution between marble and plane is e = 0.5,
determine the speed and direction of the marble immediately after the impact.
(c)
Using the speed obtained in Q2 (b) and assuming a free flight motion of the marble
after the impact. Predict the horizontal travel distance measuring from point B.
Use your
last digit of matrix number to get the value of Væ for marble initial speed.
Example; If your matrix number is AD192005.
A D 1
9 2
0 0 5
VE = 5 + 2
Then, Va = 7 ms-1

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