Consider the system shown in the figure (Figure 1) with mA = 7.0 kg and mB= 11.0 kg . The angles θA = 59∘ and θB = 32∘.A) In the absence of friction, what force F⃗ F→ would be required to pull the masses at a constant velocity up the fixed inclines?B) The force F⃗ F→ is now removed. What is the magnitude of the acceleration of the two blocks?C) What is the direction of the acceleration of the two blocks?D) In the absence of F⃗ F→, what is the tension in the string?Express your answer using two significant figures. Consider the system shown in the figure (Figure 1) with ma = 7.0 kg and mg = 11.0 kg . The angles e = 59° and Og =32°Part AIn the absence of friction, what force F would be required to pull the masses at a constant velocity up the fixed inclines??|F =NSubmitRequest AnswerPart BThe force F is now removed. What is the magnitude of the acceleration of the two blocks?HVα ΑΣφa =m/s?SubmitRequest AnswerPart CWhat is the direction of the acceleration of the two blocks?O Up the planesO Down the planesSubmitRequest AnswerPart DIn the absence of F, what is the tension in the string?Figure< 1 of 1 >Express your answer using two significant figures.Hνα ΑΣφ?T =NOB = 32°SubmitRequest AnswerProvide FeedbackOA = 59°

Hello. Since your question has multiple sub-parts, we will solve the first three sub-parts for you.…

Consider the system shown in the figure (Figure 1) with ma = 7.0 kg and mg = 11.0 kg The angles 0 = 59° and Og= 32 • Part A In the absence of friction, what force F would be required to pull the masses at a constant velocity up the fixed inclines? a ? Submit Reguest Answer Part B The force F is now removed. What is the magnitude of the acceleration of the two blocks? ? m/s? Submit Request Answer Part C What is the direction of the acceleration of the two blocks? O Up the planes • Down the planes Submit Reguest Answer Part D In the absence of F, what is the tension in the string? Figure < 1 of 1> Express your answer using two significant figures. ? T= - 32 Submit Request Answer Provide Feedback A- 59

Consider the system shown in the figure (Figure 1) with ma = 7.0 kg and mg = 11.0 kg The angles 0 = 59° and Og= 32 • Part A In the absence of friction, what force F would be required to pull the masses at a constant velocity up the fixed inclines? a ? Submit Reguest Answer Part B The force F is now removed. What is the magnitude of the acceleration of the two blocks? ? m/s? Submit Request Answer Part C What is the direction of the acceleration of the two blocks? O Up the planes • Down the planes Submit Reguest Answer Part D In the absence of F, what is the tension in the string? Figure < 1 of 1> Express your answer using two significant figures. ? T= - 32 Submit Request Answer Provide Feedback A- 59

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Question

100%

Consider the system shown in the figure (Figure 1) with mA = 7.0 kg and mB= 11.0 kg . The angles θA = 59∘ and θB = 32∘.

A) In the absence of friction, what force F⃗ F→ would be required to pull the masses at a constant velocity up the fixed inclines?

B) The force F⃗ F→ is now removed. What is the magnitude of the acceleration of the two blocks?

C) What is the direction of the acceleration of the two blocks?

D) In the absence of F⃗ F→, what is the tension in the string?

Express your answer using two significant figures.

Consider the system shown in the figure (Figure 1) with ma = 7.0 kg and mg = 11.0 kg . The angles e = 59° and Og =
32°
Part A
In the absence of friction, what force F would be required to pull the masses at a constant velocity up the fixed inclines?
?
|F =
N
Submit
Request Answer
Part B
The force F is now removed. What is the magnitude of the acceleration of the two blocks?
HVα ΑΣφ
a =
m/s?
Submit
Request Answer
Part C
What is the direction of the acceleration of the two blocks?
O Up the planes
O Down the planes
Submit
Request Answer
Part D
In the absence of F, what is the tension in the string?
Figure
< 1 of 1 >
Express your answer using two significant figures.
Hνα ΑΣφ
?
T =
N
OB = 32°
Submit
Request Answer
Provide Feedback
OA = 59°

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