Learning Goal: To be able to analyze the equilibrium of systems subjected to frictional forces at belts and surfaces. When engineers design belt drives and band brakes, they engineer them to withstand the frictional forces that develop between the belts or bands and their contacting surfaces. These frictional forces lead to tensions on each side of the contacting surfaces that are unequal; the segment aligning with the motion of the belt or band has a greater tension. ▾ Part A A cable is attached to a 1.10 kg block A, is looped over a fixed peg at C, and is attached to plate B. (Figure 1) The coefficient of static friction between the plate and the block is μA=0.200, the coefficient of static friction between the plate and the inclined plane is μB = 0.390, and the coefficient of static friction between the cable and the peg is HC = 0.230. If the plane's angle is 30.0 degrees, what is the maximum mass that plate B can have such that it does not slide down the plane? Express your answer numerically in kilograms to three significant figures. ▸ View Available Hint(s) Figure B A HA PC 1 of 3 mB = Submit Part B 1 ΑΣΦ Η vec ? kg Blocks A and B have a masses of 130 kg and 280 kg, respectively. (Figure 2) The coefficient of static friction between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is 0.490. Pulley D rotates freely, and P = 30.0 N. If 0 = 60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures. ▸ View Available Hint(s) T = Submit Part C ΜΕ ΑΣΦ ↓↑ vec ? kN side of the contacting surfaces that are unequal; the segment aligning with the motion of the belt or band has a greater tension. Figure 2 of 3 Express your answer numerically in kilograms to three significant figures. ▸ View Available Hint(s) MB= Submit 1 ΑΣΦ Η vec ? kg Part B Blocks A and B have a masses of 130 kg and 280 kg, respectively.(Figure 2) The coefficient of static friction between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is 0.490. Pulley D rotates freely, and P = 30.0 N. If 0=60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures. ▸ View Available Hint(s) 19 ΑΣΦ 11 vec Templates T = B C Submit Part C ? kN

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Help!!! Please answer part A and pert B correctly!!! Please
Learning Goal:
To be able to analyze the equilibrium of systems
subjected to frictional forces at belts and surfaces.
When engineers design belt drives and band brakes,
they engineer them to withstand the frictional forces that
develop between the belts or bands and their contacting
surfaces. These frictional forces lead to tensions on each
side of the contacting surfaces that are unequal; the
segment aligning with the motion of the belt or band has
a greater tension.
▾ Part A
A cable is attached to a 1.10 kg block A, is looped over a fixed peg at C, and is attached to plate B. (Figure 1) The
coefficient of static friction between the plate and the block is μA=0.200, the coefficient of static friction between
the plate and the inclined plane is μB = 0.390, and the coefficient of static friction between the cable and the peg is
HC = 0.230. If the plane's angle is 30.0 degrees, what is the maximum mass that plate B can have such that it does
not slide down the plane?
Express your answer numerically in kilograms to three significant figures.
▸ View Available Hint(s)
Figure
B
A
HA
PC
1 of 3
mB =
Submit
Part B
1 ΑΣΦ Η vec
?
kg
Blocks A and B have a masses of 130 kg and 280 kg, respectively. (Figure 2) The coefficient of static friction
between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is
0.490. Pulley D rotates freely, and P = 30.0 N. If 0 = 60.0 degrees, what is the smallest magnitude, T, of tension,
T, that causes block B to move?
Express your answer numerically in kilonewtons to three significant figures.
▸ View Available Hint(s)
T =
Submit
Part C
ΜΕ ΑΣΦ
↓↑ vec
?
kN
Transcribed Image Text:Learning Goal: To be able to analyze the equilibrium of systems subjected to frictional forces at belts and surfaces. When engineers design belt drives and band brakes, they engineer them to withstand the frictional forces that develop between the belts or bands and their contacting surfaces. These frictional forces lead to tensions on each side of the contacting surfaces that are unequal; the segment aligning with the motion of the belt or band has a greater tension. ▾ Part A A cable is attached to a 1.10 kg block A, is looped over a fixed peg at C, and is attached to plate B. (Figure 1) The coefficient of static friction between the plate and the block is μA=0.200, the coefficient of static friction between the plate and the inclined plane is μB = 0.390, and the coefficient of static friction between the cable and the peg is HC = 0.230. If the plane's angle is 30.0 degrees, what is the maximum mass that plate B can have such that it does not slide down the plane? Express your answer numerically in kilograms to three significant figures. ▸ View Available Hint(s) Figure B A HA PC 1 of 3 mB = Submit Part B 1 ΑΣΦ Η vec ? kg Blocks A and B have a masses of 130 kg and 280 kg, respectively. (Figure 2) The coefficient of static friction between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is 0.490. Pulley D rotates freely, and P = 30.0 N. If 0 = 60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures. ▸ View Available Hint(s) T = Submit Part C ΜΕ ΑΣΦ ↓↑ vec ? kN
side of the contacting surfaces that are unequal; the
segment aligning with the motion of the belt or band has
a greater tension.
Figure
2 of 3
Express your answer numerically in kilograms to three significant figures.
▸ View Available Hint(s)
MB=
Submit
1 ΑΣΦ Η vec
?
kg
Part B
Blocks A and B have a masses of 130 kg and 280 kg, respectively.(Figure 2) The coefficient of static friction
between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is
0.490. Pulley D rotates freely, and P = 30.0 N. If 0=60.0 degrees, what is the smallest magnitude, T, of tension,
T, that causes block B to move?
Express your answer numerically in kilonewtons to three significant figures.
▸ View Available Hint(s)
19 ΑΣΦ 11 vec
Templates
T =
B
C
Submit
Part C
?
kN
Transcribed Image Text:side of the contacting surfaces that are unequal; the segment aligning with the motion of the belt or band has a greater tension. Figure 2 of 3 Express your answer numerically in kilograms to three significant figures. ▸ View Available Hint(s) MB= Submit 1 ΑΣΦ Η vec ? kg Part B Blocks A and B have a masses of 130 kg and 280 kg, respectively.(Figure 2) The coefficient of static friction between A and B and between B and C is 0.290. The coefficient of static friction between the rope and peg E is 0.490. Pulley D rotates freely, and P = 30.0 N. If 0=60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Express your answer numerically in kilonewtons to three significant figures. ▸ View Available Hint(s) 19 ΑΣΦ 11 vec Templates T = B C Submit Part C ? kN
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