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A 10-kilogram mass is suspended from the end of a beam that is 1.2 meters long. The beam is attached to a wall. Find the magnitude and direction (clockwise or counterclockwise) …

A 10-kilogram mass is suspended from the end of a beam that is 1.2 meters long. The beam is attached to a wall. Find the magnitude and direction (clockwise or counterclockwise) …
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A 10-kilogram mass is suspended from the end of a beam that is 1.2 meters long. The beam is attached to a wall. Find the magnitude and direction (clockwise or counterclockwise) of the resulting torque at point B.

User Waweru Kamau
by
8.4k points

1 Answer

3 votes

Answer:

The magnitude of the resulting torque
=118 N.m

Step-by-step explanation:

The resulting torque = Force
* perpendicular distance.

So the force
=mass* gravity =10* 9.8 =98\ N

Perpendicular distance
= 1.2\ m

Torque =
F * d = 98* 1.2 = 117 .6 N\ m \approx 118 N\ m

The direction will be clockwise as the force acting is downward and will pull the rod in clockwise direction.

So the torque is
118\ N\ m in cw(clockwise) direction.

A 10-kilogram mass is suspended from the end of a beam that is 1.2 meters long. The-example-1
User Tony Peng
by
7.4k points
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