A mass M = 10.0 kg falls through a height h = 1.00 m, whilst attached...
A mass M = 10.0 kg falls through a height h = 1.00 m, whilst attached to a pulley which turns a paddle wheel in a tub of m = 0.0100 kg of water at T = 10.0 Celsius. If M starts from rest and hits the floor at 2.00 m/s, what is the temperature of the water after M hits the ground?
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A mass M = 10.0 kg falls through a height h = 1.00 m, whilst
attached...
Mass M_2 starts from rest and falls a height H. Mass M_1 is attached by a...
Mass M_2 starts from rest and falls a height H. Mass M_1 is attached by a rope to mass M_2. The rope goes over a massless and frictionless pulley. Assume the rope is massless and does not stretch. The coefficient of kinetic friction mu k exist between M_1 and the table. Determine the acceleration of M_1 after M_2 is released Determine the time it takes M_2 to fall to the ground. Determine the velocity of M_1 as M_2 hits the...
A rock of mass 0.315 kg falls from rest from a height of 19.1 m into...
A rock of mass 0.315 kg falls from rest from a height of 19.1 m into a pail containing 0.453 kg of water. The rock and water have the same initial temperature. The specific heat capacity of the rock is 1900 J/kg C°. Ignore the heat absorbed by the pail itself, and determine the rise in temperature of the rock and water in Celsius degrees.
A rock of mass 0.426 kg falls from rest from a height of 25.0 m into...
A rock of mass 0.426 kg falls from rest from a height of 25.0 m into a pail containing 0.322 kg of water. The rock and water have the same initial temperature. The specific heat capacity of the rock is 1890 J/kg C°. Ignore the heat absorbed by the pail itself, and determine the rise in temperature of the rock and water in Celsius degrees.
A block of mass m = 3.39 kg is attached to a spring (k = 28.7...
A block of mass m = 3.39 kg is attached to a spring (k = 28.7 N/m) by a rope that hangs over a pulley of mass M = 6.78 kg and radius R = 7.81 cm, as shown in the figure. a) Treating the pulley as a solid homogeneous disk, neglecting friction at the axle of the pulley, and assuming the system starts from rest with the spring at its natural length, find the speed of the block after...
a ball whose mass is .35 kg falls from rest through a height of 5.3 m...
a ball whose mass is .35 kg falls from rest through a height of 5.3 m and then bounces back. it reaches a maximum height of 3.8 m after the bounce before falling to the ground again. from the beginning at 5.3 m to the height of 3.8 m after the bounce. the magnitude of its mechanical energy has changed by a) zero b) 13.0 J c) 0.52 J d) 5.15 J
A box of mass m = 10.0 kg is attached to a rope. The other end...
A box of mass m = 10.0 kg is attached to a rope. The other end of the rope is wrapped around a pulley with a radius of 15.0 cm. When you release the box, it begins to fall and the rope around the pulley begins to unwind, causing the pulley to rotate. As the box falls, the rope does not slip as it unwinds from the pulley. If the box is traveling at a speed of 2.50 m/s after...
Two blocks with equal mass m = 2.1 kg are connected by a string that passes...
Two blocks with equal mass m = 2.1 kg are connected by a string that passes over a pulley wheel. Block A sits on a level table, with friction acting between the block and ramp surfaces with coefficient of kinetic friction µk = 0.27. Block B is suspended below the pulley wheel, initially at a height h = 1.23 m above the ground. The system is released from rest. What is the final speed of both blocks in units of...
A ball with a mass of 2 kg falls from a height of 3 m on...
A ball with a mass of 2 kg falls from a height of 3 m on the ground in point B. From there the ball bounces (coefficient of restitution e = 0.8) to come to the ground a little later in point C. A 3 m B 26 o The speed (in x and y direction) of the ball just before it hits the ground in point B. U o The speed (in x and y direction) of the ball...
A mass m hangs from a string. The string is attached to a frictionless pulley of...
A mass m hangs from a string. The string is attached to a frictionless pulley of mass M and is wrapped around it many times around it. The hanging mass is released from rest from a height h above the floor. The pulley is a uniform disk. use the rotational and linear second laws to find the acceleration of the mass as it falls. I got a = 2mg/(2m+M). Is this correct? If, so please explain
A solid wheel has a radius of 2.00 m and a mass of 10.0 kg. This...
A solid wheel has a radius of 2.00 m and a mass of 10.0 kg. This wheel is rotating at 5.00 rad/sec without friction along an axis when a 1.00 kg wad of tape is thrown and sticks to the outer edge of the wheel. Solve for the new rotational velocity of the wheel-with-tape.
Mass M_2 starts from rest and falls a height H. Mass M_1 is attached by a rope to mass M_2. The rope goes over a massless and frictionless pulley. Assume the rope is massless and does not stretch. The coefficient of kinetic friction mu k exist between M_1 and the table. Determine the acceleration of M_1 after M_2 is released Determine the time it takes M_2 to fall to the ground. Determine the velocity of M_1 as M_2 hits the...
A ball with a mass of 2 kg falls from a height of 3 m on the ground in point B. From there the ball bounces (coefficient of restitution e = 0.8) to come to the ground a little later in point C. A 3 m B 26 o The speed (in x and y direction) of the ball just before it hits the ground in point B. U o The speed (in x and y direction) of the ball...
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