You are working with Newton's Law of Universal Gravitation: Gm m₂ 1 d² 1. What would happen to the magnitude of the force if mass #1 is increased by a factor of 5x? [ Force increases by 5 times ] F g = 2. What would happen to the magnitude of the force if mass #2 is increased by a factor of 7x? [] 3. What would happen to the magnitude of the force if both masses are increased by a factor of 5x? [] 4. What would happen to the magnitude of the force if the distance between the two masses is increas by a factor of 9x? [] 5. What would happen to the magnitude of the force if the distance between the two masses is decrease by a factor of 9x? [] 6. What would happen to the magnitude of the force if all of the variables increased by a factor of 7x? [] 7. To sum up Newton's Law of Universal Gravitation, please fill in the blanks below. To type in the image,
You are working with Newton's Law of Universal Gravitation: Gm m₂ 1 d² 1. What would happen to the magnitude of the force if mass #1 is increased by a factor of 5x? [ Force increases by 5 times ] F g = 2. What would happen to the magnitude of the force if mass #2 is increased by a factor of 7x? [] 3. What would happen to the magnitude of the force if both masses are increased by a factor of 5x? [] 4. What would happen to the magnitude of the force if the distance between the two masses is increas by a factor of 9x? [] 5. What would happen to the magnitude of the force if the distance between the two masses is decrease by a factor of 9x? [] 6. What would happen to the magnitude of the force if all of the variables increased by a factor of 7x? [] 7. To sum up Newton's Law of Universal Gravitation, please fill in the blanks below. To type in the image,
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![Unit 4b: Universal Law of Gravitation
You are working with Newton's Law of Universal Gravitation:
Gm m₂
d²
1. What would happen to the magnitude of the force if mass #1 is increased by a factor of 5x?
[Force increases by 5 times ]
F
g
=
2. What would happen to the magnitude of the force if mass #2 is increased by a factor of 7x?
[ ]
3. What would happen to the magnitude of the force if both masses are increased by a factor of 5x?
[ ]
4. What would happen to the magnitude of the force if the distance between the two masses is increased
by a factor of 9x?
[ ]
5. What would happen to the magnitude of the force if the distance between the two masses is decreased
by a factor of 9x?
[]
6. What would happen to the magnitude of the force if all of the variables increased by a factor of 7x?
[]
7. To sum up Newton's Law of Universal Gravitation, please fill in the blanks below. To type in the image,](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1966a060-2ef3-435d-ae68-3b23091db82c%2Fc90d5f03-0e83-4a9f-9385-274c88319026%2Fpr1yv9u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Unit 4b: Universal Law of Gravitation
You are working with Newton's Law of Universal Gravitation:
Gm m₂
d²
1. What would happen to the magnitude of the force if mass #1 is increased by a factor of 5x?
[Force increases by 5 times ]
F
g
=
2. What would happen to the magnitude of the force if mass #2 is increased by a factor of 7x?
[ ]
3. What would happen to the magnitude of the force if both masses are increased by a factor of 5x?
[ ]
4. What would happen to the magnitude of the force if the distance between the two masses is increased
by a factor of 9x?
[ ]
5. What would happen to the magnitude of the force if the distance between the two masses is decreased
by a factor of 9x?
[]
6. What would happen to the magnitude of the force if all of the variables increased by a factor of 7x?
[]
7. To sum up Newton's Law of Universal Gravitation, please fill in the blanks below. To type in the image,
Transcribed Image Text:50 N
200 N
Force B
Observe the following 4 free-body diagrams:
200 N
b
Force C
80 N
O
Fnet = 0 N
Fnet
-900 N, up
Fnet 60 N, left
Fnet 30 N, right
Using the diagrams and the net forces given below each one, determine the magnitude of the forces indicated
by the arrows. (You will have 4 answers)
300 N
D
Force D
20 N
28
IF
Force G
H
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