elevator at rest
the force of the 3kg block on the 2kg block, F3on2
the force of the 2kg block on the 3kg block, F2on3
the force of the 3kg block on the 1kg block, F3on1
the force of the 1kg block on the 3kg block, F1on3
the force of the 2kg block on the 1kg block, F2on1
the force of the 1kg block on the 2kg block, F1on2
force of the 1kg block on the floor, F1onfloor
force of the floor on the 1kg block, Fflooron1Please note: Before this question they had me rank them the same way except if the elevator was at rest, I know the correct ranking of that scenario going fromlargest to smallest is 1kg = force by floor on 1kg > force of 2 kg block on 1 kg block = force of 1 kg block on 2 kg block >force of 2 kgblock on 3 kg = force of 3 kg block on 2 kg > force of 3 kg block on 1 kg block= force of 1 kg block on 3 kg block
Homework Answers
Part B Now, assume the elevator is moving upward at increasing speed. Rank the magnitude of the forces. Rank from large...
Part B
Now, assume the elevator is moving upward at
increasing speed. Rank the magnitude of the forces.
Rank from largest to smallest. To
rank items as equivalent, overlap them.
Answer the following questions with
reference to the eight forces defined as follows.
the force of the 3kg block on the 2kg block, F3on2
the force of the 2kg block on the 3kg block, F2on3
the force of the 3kg block on the 1kg block, F3on1
the force of the...
Blocks in an Elevator Ranking Task Three blocks are stacked on top of each other inside...
Blocks in an Elevator Ranking Task Three blocks are stacked on top of each other inside an elevator as shown in (Figure 1). Answer the following questions with reference to the eight forces defined as follows. the force of the 3 kg block on the 2 kg block, F3 on 2, the force of the 2 kg block on the 3 kg block, F2 on 3. • the force of the 3 kg block on the 1 kg Figure 1...
Three blocks are stacked on top of each other inside an elevator as shown in (Figure...
Three blocks are stacked on top of each other inside an elevator as shown in (Figure 1).Answer the following questions with reference to the eight forces defined as follows.the force of the 3 kg block on the 2 kg block, F3on2,the force of the 2 kg block on the 3 kg block, F2on3,the force of the 3 kg block on the 1 kg block, F3on1,the force of the 1 kg block on the 3 kg block, F1on3,the force of the 2 kg block on...
Three blocks are stacked on top of each other inside an elevator as shown in the figure. Answer the following quest...
Three blocks are stacked on top of each other inside an elevator as
shown in the figure.
Answer the following
questions with reference to the eight forces defined as
follows.
the force of the 3block on the 2block,,
the force of the 2block on the 3block,,
the force of the 3block on the 1block,,
the force of the 1block on the 3block,,
the force of the 2block on the 1block,,
the force of the 1block on the 2block,,
the force...
Three blocks are stacked on top of each other inside an elevator as shown in (Figure...
Three blocks are stacked on top of each other inside an elevator as shown in (Figure 1) Answer the following questions with reference to the eight forces defined as follows. Assume the elevator is at rest Rank the magnitude of the forces. Rank from largest to smallest. To rank items as equivalent, overlap them. This question will be shown after you complete previous question(s).
Part A.)Six boxes held at rest against identical walls. Rank the boxes on the basis of the magnitude of the normal forc...
Part A.)Six boxes held at rest against identical walls. Rank the boxes on the basis of the magnitude of the normal force acting on them. Rank from largest to smallest. To rank items as equivalent, overlap them. 1.)130N--->7kg 2.)150N--->1kg 3.)150N--->7kg 4.)120N--->3kg 5.)140N--->5kg 6.)140N--->3kg (Since the boxes are at rest, Newton's 2nd law dictates that the horizontal forces on each box must add up to zero. You can use this information to determine the normal forces. If two boxes are both...
Blocks in an Elevator Ranking Task
Three blocks are stacked on top of each other inside anelevator as shown in the figure.Answer the following questions with reference to the eightforces defined as follows.1. the force of the 3 kg block on the 2 kg block,F3 on 2,2. the force of the 2 kg block on the 3 kg block,F2 on 3,3. the force of the 3 kg block on the 1 kg block,F3 on 1,4. the force of the 1 kg block on the 3 kg...
Normal and Frictional Forces Ranking Task Six boxes held at rest against identical walls. Rank the...
Normal and Frictional Forces Ranking Task Six boxes held at rest against identical walls. Rank the boxes on the basis of the magnitude of the normal force acting on them. Rank from largest to smallest. To rank items as equivalent, overlap them.
Part B Rank each pendulum on the basis of the maximum kinetic energy it attains after...
Part B Rank each pendulum on the basis of the maximum kinetic energy it attains after release Rank from largest to smallest To rank items as equivalent, overlap them h=60cm m=2kg h 60 cm h-30 cm m=2kg h=45 cm m - 3 kg h 30 cm h = 15 cm m=8kg m= largest smallest The correct ranking cannot be determined reset help
A) 70 kg man s standing in an elevator. Find the reaction of the elevator...
A) 70 kg man s standing in an elevator. Find the reaction of the elevator on the man if a) the elevator is accelerating upward at 1.5 m/s^2 b) the elevator is accelerating downward at 1.5m/s^2 c) the elevator is descending at a constant velocity 3m/s. B) If the elevator and its contents has a total mass of 1500kg, and it is sup four cables each having a tension T. ? find the tension T IN EACH OF THE...
Part B
Now, assume the elevator is moving upward at
increasing speed. Rank the magnitude of the forces.
Rank from largest to smallest. To
rank items as equivalent, overlap them.
Answer the following questions with
reference to the eight forces defined as follows.
the force of the 3kg block on the 2kg block, F3on2
the force of the 2kg block on the 3kg block, F2on3
the force of the 3kg block on the 1kg block, F3on1
the force of the...
Blocks in an Elevator Ranking Task Three blocks are stacked on top of each other inside an elevator as shown in (Figure 1). Answer the following questions with reference to the eight forces defined as follows. the force of the 3 kg block on the 2 kg block, F3 on 2, the force of the 2 kg block on the 3 kg block, F2 on 3. • the force of the 3 kg block on the 1 kg Figure 1...
Three blocks are stacked on top of each other inside an elevator as
shown in the figure.
Answer the following
questions with reference to the eight forces defined as
follows.
the force of the 3block on the 2block,,
the force of the 2block on the 3block,,
the force of the 3block on the 1block,,
the force of the 1block on the 3block,,
the force of the 2block on the 1block,,
the force of the 1block on the 2block,,
the force...
Three blocks are stacked on top of each other inside an elevator as shown in (Figure 1) Answer the following questions with reference to the eight forces defined as follows. Assume the elevator is at rest Rank the magnitude of the forces. Rank from largest to smallest. To rank items as equivalent, overlap them. This question will be shown after you complete previous question(s).
Three blocks are stacked on top of each other inside anelevator as shown in the figure.Answer the following questions with reference to the eightforces defined as follows.1. the force of the 3 kg block on the 2 kg block,F3 on 2,2. the force of the 2 kg block on the 3 kg block,F2 on 3,3. the force of the 3 kg block on the 1 kg block,F3 on 1,4. the force of the 1 kg block on the 3 kg...
Normal and Frictional Forces Ranking Task Six boxes held at rest against identical walls. Rank the boxes on the basis of the magnitude of the normal force acting on them. Rank from largest to smallest. To rank items as equivalent, overlap them.
Part B Rank each pendulum on the basis of the maximum kinetic energy it attains after release Rank from largest to smallest To rank items as equivalent, overlap them h=60cm m=2kg h 60 cm h-30 cm m=2kg h=45 cm m - 3 kg h 30 cm h = 15 cm m=8kg m= largest smallest The correct ranking cannot be determined reset help
A) 70 kg man s standing in an elevator. Find the reaction of the elevator on the man if a) the elevator is accelerating upward at 1.5 m/s^2 b) the elevator is accelerating downward at 1.5m/s^2 c) the elevator is descending at a constant velocity 3m/s. B) If the elevator and its contents has a total mass of 1500kg, and it is sup four cables each having a tension T. ? find the tension T IN EACH OF THE...
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