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Consider Joule's apparatus shown below. The mass of each of the two blocks is 5.00 kg,...
Please type or neat handwriting Thank you 4. Two blocks of mass 3.00 kg and 5.00...
Please type or neat handwriting
Thank you
4. Two blocks of mass 3.00 kg and 5.00 kg are connected as shown to a spring k 25.0 N/m) that has one end fixed to a wall. The horizontal surface has a ukinetic) 0.35 and the pulley is frictionless. The 3.0 kg block will not leave the platform. The pulley is mass less. The system is released from rest with the spring unstretched A. What is the combined kinetic energy of the...
Consider using the apparatus shown in Fig. 4-1(a), known as the Joule paddle wheel, to determine...
Consider using the apparatus shown in Fig. 4-1(a), known as the Joule paddle wheel, to determine the specific heat at constant atmospheric pressure. The paddle wheel is driven by a slowly falling weight, and both have a temperature of 14.5 degree C. As a result of the work done by the 0.427 kg mass that falls 1.00 m, the temperature of 1 kg of water rises 1 degree C. Calculate Cp.
Two blocks start from rest and are connected by a string that passes over a pulley,...
Two blocks start from rest and are connected by a string that
passes over a pulley, as shown in the picture below. The pulley is
a uniform disk of mass
mp = 4.00 kg; m = 5.00 kg and M = 11.0 kg. For both blocks, ?k =
0.240. If the speed of the blocks is 1.50 m/s after they have moved
a distance of 2.00 m, find ?.
Can you please give a detailed explanation of how
you got...
Question 3. Two blocks having mass m (2 kg) and m, (5 kg) are connected by...
Question 3. Two blocks having mass m (2 kg) and m, (5 kg) are connected by a string passing over a pulley as shown in the figure. The pulley (in cylindrical disc shape) has a radius R (0.4 m) and mass (0.5 kg). The string does not slip on the pulley and the system is released from rest. Find the translational speeds of the blocks after mass 2 descends through a distance h (1.0 m) and find the angular speed...
A Cavendish apparatus is shown in in the figure below. You can estimate the angle of...
A Cavendish apparatus is shown in in the figure below. You can
estimate the angle of rotation of the rod in the following way.
Assume that the rod is massless, that there is no resistance to
rotation, and that the same force acts on both masses. Then the
acceleration of each mass may be computed independently, using
Newton's second law. Furthermore, if the distance each mass moves
is small compared with the separation between m and
M, then the acceleration...
An Insulated tube is filled with a large number n of lead spheres, each of mass...
An Insulated tube is filled with a large number n of lead spheres, each of mass m. The tube is inverted s times so that the spheres completely fall through an average distance L each time. The temperature of the spheres is measured before and after the inversions and the resultant change in temperature of delta T What is the specific heat capacity of lead?
As shown in the figure below, two blocks are connected by a string of negligible mass...
As shown in the figure below, two blocks are connected by a string of negligible mass passing over a solid disk pulley with a mass of 0.25 kg and a radius of 0.300 m. The block on the frictionless incline is moving with a constant acceleration. If m= 10.0 kg, m2 -20 kg, and 0 = 37.0°, determine the acceleration of the blocks. M .
Two blocks are free to side along the frctionless wooden track shown below. The block of...
Two blocks are free to side along the frctionless wooden track shown below. The block of mass m -5.08 kg is released from the position shown, at height h 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in block of mass m2 11.0kg, instially at rest. The two blocks never touch. Calculate the maximum height to...
Two blocks are free to slide along the frictionless wooden track shown below. The block of...
Two blocks are free to slide along the frictionless wooden track shown below. The block of mass m_1 = 4.92 kg is released from the position shown, at height h = 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in the back end of the block of mass m_z = 9.40 kg initially at rest. The...
Two blocks are free to slide along the frictionless wooden track shown below. The block of...
Two blocks are free to slide along the frictionless wooden track shown below. The block of mass m1 = 5.03 kg is released from the position shown, at height h = 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in the back end of the block of mass m2 = 9.50 kg, initially at rest. The...
Please type or neat handwriting
Thank you
4. Two blocks of mass 3.00 kg and 5.00 kg are connected as shown to a spring k 25.0 N/m) that has one end fixed to a wall. The horizontal surface has a ukinetic) 0.35 and the pulley is frictionless. The 3.0 kg block will not leave the platform. The pulley is mass less. The system is released from rest with the spring unstretched A. What is the combined kinetic energy of the...
Consider using the apparatus shown in Fig. 4-1(a), known as the Joule paddle wheel, to determine the specific heat at constant atmospheric pressure. The paddle wheel is driven by a slowly falling weight, and both have a temperature of 14.5 degree C. As a result of the work done by the 0.427 kg mass that falls 1.00 m, the temperature of 1 kg of water rises 1 degree C. Calculate Cp.
Two blocks start from rest and are connected by a string that
passes over a pulley, as shown in the picture below. The pulley is
a uniform disk of mass
mp = 4.00 kg; m = 5.00 kg and M = 11.0 kg. For both blocks, ?k =
0.240. If the speed of the blocks is 1.50 m/s after they have moved
a distance of 2.00 m, find ?.
Can you please give a detailed explanation of how
you got...
Question 3. Two blocks having mass m (2 kg) and m, (5 kg) are connected by a string passing over a pulley as shown in the figure. The pulley (in cylindrical disc shape) has a radius R (0.4 m) and mass (0.5 kg). The string does not slip on the pulley and the system is released from rest. Find the translational speeds of the blocks after mass 2 descends through a distance h (1.0 m) and find the angular speed...
A Cavendish apparatus is shown in in the figure below. You can
estimate the angle of rotation of the rod in the following way.
Assume that the rod is massless, that there is no resistance to
rotation, and that the same force acts on both masses. Then the
acceleration of each mass may be computed independently, using
Newton's second law. Furthermore, if the distance each mass moves
is small compared with the separation between m and
M, then the acceleration...
As shown in the figure below, two blocks are connected by a string of negligible mass passing over a solid disk pulley with a mass of 0.25 kg and a radius of 0.300 m. The block on the frictionless incline is moving with a constant acceleration. If m= 10.0 kg, m2 -20 kg, and 0 = 37.0°, determine the acceleration of the blocks. M .
Two blocks are free to side along the frctionless wooden track shown below. The block of mass m -5.08 kg is released from the position shown, at height h 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in block of mass m2 11.0kg, instially at rest. The two blocks never touch. Calculate the maximum height to...
Two blocks are free to slide along the frictionless wooden track shown below. The block of mass m_1 = 4.92 kg is released from the position shown, at height h = 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in the back end of the block of mass m_z = 9.40 kg initially at rest. The...
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