Question

A 200 kg block has three forces applied to it at the same time:
**F _{1}** = 30.0 N force at 40.0°,

wise from the positive x -direction.) **There is no
gravitational force.**

a. Find the x and y components of the net force on the block.

b. Find the magnitude and direction of the net force.

c. The block was initially at rest; after 14.5 s, what is its displacement (magnitude and direction)?

Answer #1

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A 200 kg block has three forces applied to it at the same time:
F1 = 30.0 N force at 40.0°,
F2= 150 N force at 95.0°, and
F3 = 75.0 N force at 206.0°. (All
angles are measured counterclock-
wise from the positive x -direction.) There is no
gravitational force.
a. Find
the x and y components of the net force on the block.
b. Find
the magnitude and direction of the net force.
c. The
block was initially at rest; after...

A 200 kg block has three forces applied to it at the same time:
F1 = 30.0 N force at 40.0°,
F2= 150 N force at 95.0°, and
F3 = 75.0 N force at 206.0°. (All
angles are measured counterclock-
wise from the positive x -direction.) There is no
gravitational force.
a. Find
the x and y components of the net force on the block.
b. Find
the magnitude and direction of the net force.
c. The
block was initially at rest; after...

A
200 Kg block has three forces applied to it at the same time: F1 =
30.0 N force at 40.0 degrees, F2 =150 N force at 95.0 degrees,
& F3 = 75.0 N force at 206.0 degrees. (Angles measured
counterclockwise from positive x-direction) There is no
gravitational force.
a. Find the x & y components of the net force on the
block
b. Find the magnitutude and direction of the net force.
c. The block was initially at rest;...

A force table applies three forces to a ring in the center of
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F1+F2+F3=0 since a stationary
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F1x+F2x+F3x=0
F1y+F2y+F3y=0
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Figure shows two industrial spies sliding an initially
stationary 225 kg floor safe a displacement d
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and directions of these forces do not change as the safe moves, and
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