Thanks for your help. I need to solve it using the conservation of the energy An...
Thanks for your help. I need to solve it using the conservation of the energy
An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass. When both masses are located at a height of 0.45 m above the ground, they have a speed of 1.75 m/s. What is the unknown mass?
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Thanks for your help. I need to solve it using the
conservation of the energy
An...
An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass....
An Atwood machine is made from a mass of 0.5 kg and a heavier unknown mass. When both masses are located at a height of 0.45 m above the ground, they have a speed of 1.75 m/s. What is the unknown mass?
6. (20) Energy conservation analysis: Use conse frictional force, to directy find the kinetic ene...
6. (20) Energy conservation analysis: Use conse frictional force, to directy find the kinetic energy of the sysin ysis: Use the conservation of energy, coupled with the work done by the when m2 hits the ground. With that ds a symbolic relation involving u, m, m2, g, and h. b) Compare your resu to Prob 5. a) v b) The next figure is used for both problems 5 &6. It shows two masses mi and m, connected by a string...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In figure a, a bullet and a wooden block are shown in two configurations. In the first configuration, the block, labeled m2, hangs vertically from a ceiling. A bullet, labeled m1, approaches the block horizontally from the left. A rightward arrow points from the bullet and is labeled vector v1i. A rightward arrow, shorter than the first, points from the block and is labeled vector...
Please write legibly and show a symbolic process and show the calculation. We have analyzed the...
Please write legibly and show a symbolic process and show the
calculation.
We have analyzed the Atwood machine (two masses connected by a string, hanging over a pulley) in a couple of different ways, but always with a massless pulley. Now let's consider an Atwood machine where the pulley does have some mass. Masses one and two, the hanging masses, have mass 1.2 kg and 2.6 kg. They are initially suspended at rest a height 0.8 m above the ground....
Please provide a detailed, clear answer to this question. Thanks! Initial Final 6. In the above...
Please provide a detailed, clear answer to this question.
Thanks!
Initial Final 6. In the above figure is an Atwood machine: a machine composed of two blocks, one of mass m 250g and one of mass m2 100g, a massless rope and a massless pulley. If the two masses are released from rest as shown in the figure, at what speed does m hit the ground after falling some h 12cm?
Please show step by step. Using conservation of energy and kinematics to solve. Please show separately...
Please show step by step. Using conservation of energy and
kinematics to solve. Please show separately how to do each one.
Level II: Energy (take home) friction (a) Mass m starts at height H. Use conservation of energy to determine the speed of the mass when it reaches the bottom of the incline of angle 0. The coefficient of Kinetic friction Huku exists for the length Axl and exists for length Ax: .(b) Find the time it takes to complete...
please do part B! Part 2: Problems Problem 1:12 points An Atwood machine is made of...
please do part B!
Part 2: Problems Problem 1:12 points An Atwood machine is made of two masses m! = 0 15 kg and m2 = 0 1 kg attached to lightweight (i.e. massless) string placed over a pulley. As always the string does not stretch. The pulley is made of a disk of mass M-0.5 kg and radius R = 0.1 m. The two masses are initially at rest at the same height yinitial-0.75 m above the ground. Use...
Help please Conservation of Energy WS 1. Find the speed of a rock which is thrown...
Help please
Conservation of Energy WS 1. Find the speed of a rock which is thrown off the top of a 20 mt tall building at 15 m/s when it makes contact with a bird which is flying at an altitude of 10 m ahove the ground. 2. A 50 kg roller coaster car is launched, from ground level, at 20 m/s. How fast will it be moving when it reaches the top of a loop, which is 12 m...
In this experiment you will apply your knowledge of Conservation of Energy to a given data...
In this experiment you will apply your knowledge of Conservation of Energy to a given data set. Table 5 contains data for the position of a ball with mass 0.5 kg that has been dropped from 5 meters from rest at given time points. In order to test the conservation of energy, the potential energy and kinetic energy of the ball need to be calculated. Please help me fill in the rest of the values for the table (and understand...
I need help with my homework 1. M, and M; are two masses connected as shouwn...
I need help with my homework
1. M, and M; are two masses connected as shouwn in Fig 1. The paulley is ight and frctionless. (a) Find the mass Mi, given that M: (2.0kg) acoelerates upwards at 2.0m/sec, that e is 35., and that μ¡ is 0.35, (b) What is the tension? 2. Two blocks with masses m:-18.7 kg and m-91.0 kg, shown in the fig. 2, ane free to move. The coefficient of static friction between the blocks is...
6. (20) Energy conservation analysis: Use conse frictional force, to directy find the kinetic energy of the sysin ysis: Use the conservation of energy, coupled with the work done by the when m2 hits the ground. With that ds a symbolic relation involving u, m, m2, g, and h. b) Compare your resu to Prob 5. a) v b) The next figure is used for both problems 5 &6. It shows two masses mi and m, connected by a string...
Please write legibly and show a symbolic process and show the
calculation.
We have analyzed the Atwood machine (two masses connected by a string, hanging over a pulley) in a couple of different ways, but always with a massless pulley. Now let's consider an Atwood machine where the pulley does have some mass. Masses one and two, the hanging masses, have mass 1.2 kg and 2.6 kg. They are initially suspended at rest a height 0.8 m above the ground....
Please provide a detailed, clear answer to this question.
Thanks!
Initial Final 6. In the above figure is an Atwood machine: a machine composed of two blocks, one of mass m 250g and one of mass m2 100g, a massless rope and a massless pulley. If the two masses are released from rest as shown in the figure, at what speed does m hit the ground after falling some h 12cm?
Please show step by step. Using conservation of energy and
kinematics to solve. Please show separately how to do each one.
Level II: Energy (take home) friction (a) Mass m starts at height H. Use conservation of energy to determine the speed of the mass when it reaches the bottom of the incline of angle 0. The coefficient of Kinetic friction Huku exists for the length Axl and exists for length Ax: .(b) Find the time it takes to complete...
please do part B!
Part 2: Problems Problem 1:12 points An Atwood machine is made of two masses m! = 0 15 kg and m2 = 0 1 kg attached to lightweight (i.e. massless) string placed over a pulley. As always the string does not stretch. The pulley is made of a disk of mass M-0.5 kg and radius R = 0.1 m. The two masses are initially at rest at the same height yinitial-0.75 m above the ground. Use...
Help please
Conservation of Energy WS 1. Find the speed of a rock which is thrown off the top of a 20 mt tall building at 15 m/s when it makes contact with a bird which is flying at an altitude of 10 m ahove the ground. 2. A 50 kg roller coaster car is launched, from ground level, at 20 m/s. How fast will it be moving when it reaches the top of a loop, which is 12 m...
I need help with my homework
1. M, and M; are two masses connected as shouwn in Fig 1. The paulley is ight and frctionless. (a) Find the mass Mi, given that M: (2.0kg) acoelerates upwards at 2.0m/sec, that e is 35., and that μ¡ is 0.35, (b) What is the tension? 2. Two blocks with masses m:-18.7 kg and m-91.0 kg, shown in the fig. 2, ane free to move. The coefficient of static friction between the blocks is...
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