Two different masses m1 and m2 hang far from a pulley. At t=0 both masses are a distance d from the ground and are then released. Say that m2>m1. (a)What is the maximum distance from the ground the lighter mass (m1) reaches? (b) What is the maximum upward velocity of the lighter block (in m/s), if m1=2.36 kg, m2=7.25 kg, and d=2.59 m?
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Two different masses m1 and m2 hang far
from a pulley. At t=0 both masses are...
4. Blocks of masses 11.0 kg and 25.0 kg hang on opposite sides of a pulley...
4. Blocks of masses 11.0 kg and 25.0 kg hang on opposite sides of a pulley (Atwood's machine) with a massless string that rotates the pulley without slippage. The mass of the pulley is 1.5 kg and it has a radius of 15.0 cm. The heavier mass is 2.5 m above the ground and the lighter mass is 1.2 m above the ground. Using energy consideration, determine the velocity of the two masses when the heavier mass hits the ground....
In the Atwood machine shown below, m1 = 2.00 kg and m2 = 6.00 kg. The...
In the Atwood machine shown below, m1 = 2.00 kg and m2 = 6.00 kg. The masses of the pulley and string are negligible by comparison. The pulley turns without friction and the string does not stretch. The lighter object is released with a sharp push that sets it into motion at vi = 2.20 m/s downward. (a) How far will m1 descend below its initial level? 1 m In the Atwood machine shown below, m1 = 2.00 kg and...
Constants Part A A couple of boxes with different masses, 4.20 kg and 1.70 kg, hang 0.800 m above the floor from the ends of a cord 5.50 m long passing over a frictionless pulley. The boxes are relea...
Constants Part A A couple of boxes with different masses, 4.20 kg and 1.70 kg, hang 0.800 m above the floor from the ends of a cord 5.50 m long passing over a frictionless pulley. The boxes are released from rest with the heavy box falling and lifting up the light box. Find the maximum height above the floor reached by the 1.70 kg box. m above the floor
Constants Part A A couple of boxes with different masses, 4.20...
Two blocks with different masses m1 and m2 and m1 is larger than m2. They are...
Two blocks with different masses m1 and m2 and m1 is larger than m2. They are attached to either end of a light rope that passes over a light, frictionless pulley suspended from the ceiling. The mass are released from rest, and the more massive one starts to descend. After this block has descended 1.6 m, its speed is 2.2 ms-1. If the total mass is 4.1 kg, what is the mass of the heavier block m1 (unit is kg)?...
Two masses m=6 kg and M=8 kg hang on either side of a pulley with Mp=...
Two masses m=6 kg and M=8 kg hang on either side of a pulley
with Mp= 4 kg and radius 10 cm, as shown. (The moment of inertia of
a solid disk is MR^2/2) Assume the system is initial at rest.
a.) What is the magnitude of the torque on the pulley?
b.) What is the angular acceleration of the pulley?
c.) What is the pulley's angular velocity after 2 s?
MP M
A couple of boxes with different masses, 4.10 kg and 3.00 kg , hang 0.600 m...
A couple of boxes with different masses, 4.10 kg and 3.00 kg , hang 0.600 m above the floor from the ends of a cord 5.80 m long passing over a frictionless pulley. The boxes are released from rest with the heavy box falling and lifting up the light box. Find the maximum height above the floor reached by the 3.00 kg box.
In the atwood machine shown below l, m1= 2.00 kg and m2= 7.70 kg. the masses...
In
the atwood machine shown below l, m1= 2.00 kg and m2= 7.70 kg. the
masses of the pulley and string are negligible by comparison. The
pulley turns without friction and the string does not stretch. The
lighter object is released with a sharp push that sets it into
motion at v -initial= 2.60 m/s downward.
Figure and question are in diagram ( picture below)
In the AtwOOdl motion at n = 2.60 m/s downward. mi 2 (a) How far...
Two unequal masses are hanging by ropes from either side of a light weight frictionless pulley....
Two unequal masses are hanging by ropes from either side of a light weight frictionless pulley. Let m1 = 5 kg and m2 = 10 kg. The masses are at rest. When released, the acceleration of t he heavier mass is (in magnitude) between 0.0 and 9.8 m/s^2 9.8 m/s^2 Impossible to determine 0.0 m/s^2
Two blocks are connected to a string, and the string is hung over a pulley connected...
Two blocks are connected to a string, and the string is hung over a pulley connected to the ceiling, as shown in the figure below. Two blocks, labeled m1 and m2, are connected to a string which is hung over a pulley connected to the ceiling. The pulley is of mass M and radius R. A block labeled m1 hangs suspended off the surface on the left side of the pulley. A block m2 is on the right side of...
Two masses are connected by a cord that passes over a pulley as shown in the...
Two masses are connected by a cord that passes over a pulley
as shown in the figure. The pulley and cord have negligible mass
and m1 (2.0 kg) moves on a horizontal surface without friction, m2
(2.0 kg) is suspended vertically. What is the ACCELERATION of
m1?
Question4 2/2 pts Two masses are connected by a cord that passes over a pulley as shown in the figure. The pulley and cord have negligible mass and mı (2.0 kg) moves on...
4. Blocks of masses 11.0 kg and 25.0 kg hang on opposite sides of a pulley (Atwood's machine) with a massless string that rotates the pulley without slippage. The mass of the pulley is 1.5 kg and it has a radius of 15.0 cm. The heavier mass is 2.5 m above the ground and the lighter mass is 1.2 m above the ground. Using energy consideration, determine the velocity of the two masses when the heavier mass hits the ground....
Constants Part A A couple of boxes with different masses, 4.20 kg and 1.70 kg, hang 0.800 m above the floor from the ends of a cord 5.50 m long passing over a frictionless pulley. The boxes are released from rest with the heavy box falling and lifting up the light box. Find the maximum height above the floor reached by the 1.70 kg box. m above the floor
Constants Part A A couple of boxes with different masses, 4.20...
Two masses m=6 kg and M=8 kg hang on either side of a pulley
with Mp= 4 kg and radius 10 cm, as shown. (The moment of inertia of
a solid disk is MR^2/2) Assume the system is initial at rest.
a.) What is the magnitude of the torque on the pulley?
b.) What is the angular acceleration of the pulley?
c.) What is the pulley's angular velocity after 2 s?
MP M
In
the atwood machine shown below l, m1= 2.00 kg and m2= 7.70 kg. the
masses of the pulley and string are negligible by comparison. The
pulley turns without friction and the string does not stretch. The
lighter object is released with a sharp push that sets it into
motion at v -initial= 2.60 m/s downward.
Figure and question are in diagram ( picture below)
In the AtwOOdl motion at n = 2.60 m/s downward. mi 2 (a) How far...
Two unequal masses are hanging by ropes from either side of a light weight frictionless pulley. Let m1 = 5 kg and m2 = 10 kg. The masses are at rest. When released, the acceleration of t he heavier mass is (in magnitude) between 0.0 and 9.8 m/s^2 9.8 m/s^2 Impossible to determine 0.0 m/s^2
Two masses are connected by a cord that passes over a pulley
as shown in the figure. The pulley and cord have negligible mass
and m1 (2.0 kg) moves on a horizontal surface without friction, m2
(2.0 kg) is suspended vertically. What is the ACCELERATION of
m1?
Question4 2/2 pts Two masses are connected by a cord that passes over a pulley as shown in the figure. The pulley and cord have negligible mass and mı (2.0 kg) moves on...
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