a meter log is a uniform bar of mass m = 77 kg. You want to support it at a rest parallel to the ground. so you place it on a triangle support at 33 cm mark and tie it with a rope on the ground at the 28 cm mark. A) draw your own configuration out. calculate the tension of the rope ____ N, downward, upward, right, left, or none and support force provided by the triangle support _______ N, downward, upward, right, left, or none

a meter log is a uniform bar of mass m = 77 kg. You want to support it at a rest parallel to the ground. so you place it on a triangle support at 33 cm mark and tie it with a rope on the ground at the 28 cm mark. A) draw your own configuration out. calculate the tension of the rope N, downward, upward, right, left, or none and support force provided by the triangle support ___ N, downward, upward, right, left, or none

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Question

A) draw your own configuration out.

calculate the tension of the rope ____ N, downward, upward, right, left, or none

and support force provided by the triangle support _______ N, downward, upward, right, left, or none

b) suppose a gumdrop (point mass m_b = 14.00 kg) hangs on to the meter log at the 91 cm mark

How large will the tension be on the rope? ______ N

conceptually explain why it should increase, decrease, or stay the same, compared to part A.

C) Now with everything including the gumdrop, the triangle support has been moved away from the rope, to the end of the meter log.
Explain why the system itself cannot stay balanced anymore, and the rope goes (T→0).

Calculate: rotational inertia of the system below.
I = _______ kg·m²

Calculate the sizes (+ only) of both the net torque and angular acceleration of the system ( initial moment when the meter log is still level)

τ = ______ N·m
? = ______ rad/s²

Definition Definition Rate of change of angular velocity. Angular acceleration indicates how fast the angular velocity changes over time. It is a vector quantity and has both magnitude and direction. Magnitude is represented by the length of the vector and direction is represented by the right-hand thumb rule. An angular acceleration vector will be always perpendicular to the plane of rotation. Angular acceleration is generally denoted by the Greek letter α and its SI unit is rad/s 2 .

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