Given: 240 ; weight - 60 g 100 ; weight - 50g 10 ; weight - 100g a. Find the magnitude of the equilibrant force. CHOICES: 0.5423 N 0.6033 N 0.7612 N 0.8366 N b. Find the angle of the resultant force relative to the +x-axis. CHOICES: 9.13 deg 10.46 deg 13.76 deg 15.98 deg c. Let us say, while reading the angle position of the equilibrant force, the force table was moved and the angle changed by +1 degree. The careless experimenter continued the measurement without checking the ring's position. What is the change in the angle? CHOICES: 1.61 deg 2.46 deg 3.54 deg 4.98 deg

Given: 240 ; weight - 60 g 100 ; weight - 50g 10 ; weight - 100g a. Find the magnitude of the equilibrant force. CHOICES: 0.5423 N 0.6033 N 0.7612 N 0.8366 N b. Find the angle of the resultant force relative to the +x-axis. CHOICES: 9.13 deg 10.46 deg 13.76 deg 15.98 deg c. Let us say, while reading the angle position of the equilibrant force, the force table was moved and the angle changed by +1 degree. The careless experimenter continued the measurement without checking the ring's position. What is the change in the angle? CHOICES: 1.61 deg 2.46 deg 3.54 deg 4.98 deg

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Question

Given:

240 ; weight - 60 g

100 ; weight - 50g

10 ; weight - 100g

a. Find the magnitude of the equilibrant force.

CHOICES:

0.5423 N

0.6033 N

0.7612 N

0.8366 N

b. Find the angle of the resultant force relative to the +x-axis.

CHOICES:

9.13 deg

10.46 deg

13.76 deg

15.98 deg

c. Let us say, while reading the angle position of the equilibrant force, the force table was moved and the angle changed by +1 degree. The careless experimenter continued the measurement without checking the ring's position. What is the change in the angle?

CHOICES:

1.61 deg

2.46 deg

3.54 deg

4.98 deg