oblems 10-16 Information: Jose' pushes a wheelbarrow consisting of a wheel (mass mw = 3 kg, radius r= 0.1 m) and a barrow body (mass mg = 30 kg). He accelerates from rest (state 1) to a velocity of 2 m/s (state 2), when he trips and lets the wheelchair roll down the hill (height h = 2 m, 30 deg angle) to the bottom (state 3), where it hits a crate (mass mc= 20 kg) into motion (state 4). The ground has a friction coefficient of 0.5. Between states 1 and 2, when Jose' is balancing the wheelbarrow, all the weight is on the wheel. After that, the support spike drags along the ground, holding half the total weight, while the other half is on the wheel. 13). Draw the FBD and write the equations of motion for the wheelbarrow descending the hill. What is its acceleration? (keep in mind there are 2 normal forces) 14. What is the speed at the bottom of the hill?
oblems 10-16 Information: Jose' pushes a wheelbarrow consisting of a wheel (mass mw = 3 kg, radius r= 0.1 m) and a barrow body (mass mg = 30 kg). He accelerates from rest (state 1) to a velocity of 2 m/s (state 2), when he trips and lets the wheelchair roll down the hill (height h = 2 m, 30 deg angle) to the bottom (state 3), where it hits a crate (mass mc= 20 kg) into motion (state 4). The ground has a friction coefficient of 0.5. Between states 1 and 2, when Jose' is balancing the wheelbarrow, all the weight is on the wheel. After that, the support spike drags along the ground, holding half the total weight, while the other half is on the wheel. 13). Draw the FBD and write the equations of motion for the wheelbarrow descending the hill. What is its acceleration? (keep in mind there are 2 normal forces) 14. What is the speed at the bottom of the hill?
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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Problems 10-16 Information: Jose' pushes a wheelbarrow consisting of a wheel (mass mw = 3 kg, radius r= 0.1 m) and a barrow body (mass mg = 30 kg). He accelerates from rest (state 1) to a velocity of 2 m/s (state 2), when he trips and lets the wheelchair roll down the hill (height h = 2 m, 30 deg angle) to the bottom (state 3), where it hits a crate (mass mc= 20 kg) into motion (state 4). The ground has a friction coefficient of 0.5. Between states 1 and 2, when Jose' is balancing the wheelbarrow, all the weight is on the wheel. After that, the support spike drags along the ground, holding half the total weight, while the other half is on the wheel.
13). Draw the FBD and write the equations of motion for the wheelbarrow descending the hill. What is its acceleration? (keep in mind there are 2 normal forces)
14. What is the speed at the bottom of the hill?
15. If the collision between the wheelbarrow and the crate has a coefficient of restitution e = 0.6, how fast does the crate move just after impact?
Transcribed Image Text:Problems 10-16 Information:
Jose' pushes a wheelbarrow consisting of a wheel (mass mw = 3 kg, radius r = 0.1 m) and a
barrow body (mass mB = 30 kg). He accelerates from rest (state 1) to a velocity of 2 m/s (state
2), when he trips and lets the wheelchair roll down the hill (height h = 2 m, 30 deg angle) to the
bottom (state 3), where it hits a crate (mass mc = 20 kg) into motion (state 4). The ground has a
friction coefficient of 0.5. Between states 1 and 2, when Jose' is balancing the wheelbarrow, all
the weight is on the wheel. After that, the support spike drags along the ground, holding half
the total weight, while the other half is on the wheel.
1)
2
3
4
H.
Transcribed Image Text:Draw the FBD and write the equations of motion for the wheelbarrow descending the hill.
What is its acceleration?
Problem 14
What is the speed at the bottom of the hill?
Problem 15
If the collision between the wheelbarrow and the crate has a coefficient of restitution e = 0.6,
how fast does the crate move just after impact?
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