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A uniform chain of mass m and length is at the verge of sliding under the...
A uniform board of length L and mass M lies near a boundary that separates two regions
A uniform board of length L and mass M lies near a boundary that separates two regions. In region 1, the coefficient of kinetic friction between the board and the surface is μ1, and in region 2, the coefficient is μ2. The positive direction is shown in the figure.What is the total work done by the external force in pulling the board from region 1 to region 2? (Again, assume that the board moves at constant velocity.)Express your answer in...
A uniform chain of total mass m is laid out straight on a frictionless table and...
A uniform chain of total mass m is laid out straight on a frictionless table and held stationary so that one-quarter of its length, L = 1.31 m, is hanging vertically over the edge of the table. The chain is then released. Determine the speed of the chain at the instant when only one-quarter of its length remains on the table.
A uniform chain of total mass m is laid out straight on a frictionless table and...
A uniform chain of total mass m is laid out straight on a frictionless table and held stationary so that one-quarter of its length, L = 1.31 m, is hanging vertically over the edge of the table. The chain is then released. Determine the speed of the chain at the instant when only one-quarter of its length remains on the table.
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes...
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes over a small, frictionless, massless pulley. It is released from a rest position with a length of chain y hanging from one side and a length l-y from the other side. Find the acceleration a as a function of y a(y)-?
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes...
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes over a small, frictionless, massless pulley. It is released from a rest position with a length of chain y hanging from one side and a length l-y from the other side. Find the acceleration a as a function of y a(y)-?
8.9.) A chain of mass m and length l lies on a horizontal table with a...
8.9.) A chain of mass m and length l lies on a
horizontal table with a portion hanging over the edgeof the table.
The only force acting on the system is the constant gravitational
force in the negative y- direction. Set up and solve Lagrange's
equation. Assume uniform mass density.
8.10.) a) Set up Lagrange's equations for the double pendulum
(Figure 8.8).
b) Assume that the amplitudes are very small. Simplify the
equations keeping only terms linear in the variables....
A block of mass m-5kg is released from rest at the top of an incline which...
A block of mass m-5kg is released from rest at the top of an incline which makes an angle 0= 30° with the horizontal. The coefficient of sliding friction between the block and the plane is P02 d 2 m 0.2. 2m down the incline: After the block has traveled d m5 kg a) How much work has gravity has done on the block? 8 30 b) How much work has the Normal Force has done on the block? c)...
Studio 2053C Fall 2016: Energy and Work An eraser of mass m = 0.120 kg is...
Studio 2053C Fall 2016: Energy and Work An eraser of mass m = 0.120 kg is released from rest at a distance L = 0.750 m from the bottom of a whiteboard, which is inclined at an angle of 30.0° to the horizontal. The coefficient of kinetic friction between the eraser and whiteboard is μ,-0.125. Use g= 9.81 m/s (1) What is the work done by gravity as the eraser moves from where it is released to the bottom of...
1. A uniform rod of mass M = 5.01kg and length L = 1.18m can pivot...
1. A uniform rod of mass M = 5.01kg and length L = 1.18m can
pivot freely (i.e., we ignore friction) about a hinge attached to a
wall, as seen in the figure below.
2. Determine the linear acceleration of the tip of the rod.
Assume that the force of gravity acts at the center of mass of the
rod, as shown.
Please show work for both questions
radusn2. The rod is held horizontally and then released. At the moment...
A block with mass m = 14 kg rests on a frictionless table and is accelerated...
A block with mass m = 14 kg rests on a frictionless table and is accelerated by a spring with spring constant k = 4174 N/m after being compressed a distance x1 = 0.512 m from the spring’s unstretched length. The floor is frictionless except for a rough patch a distance d = 2.7 m long. For this rough path, the coefficient of friction is μk = 0.44. 1) How much work is done by the spring as it accelerates...
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes over a small, frictionless, massless pulley. It is released from a rest position with a length of chain y hanging from one side and a length l-y from the other side. Find the acceleration a as a function of y a(y)-?
L-M 7. A uniform flexible chain of length L, with mass per unit length A, passes over a small, frictionless, massless pulley. It is released from a rest position with a length of chain y hanging from one side and a length l-y from the other side. Find the acceleration a as a function of y a(y)-?
8.9.) A chain of mass m and length l lies on a
horizontal table with a portion hanging over the edgeof the table.
The only force acting on the system is the constant gravitational
force in the negative y- direction. Set up and solve Lagrange's
equation. Assume uniform mass density.
8.10.) a) Set up Lagrange's equations for the double pendulum
(Figure 8.8).
b) Assume that the amplitudes are very small. Simplify the
equations keeping only terms linear in the variables....
A block of mass m-5kg is released from rest at the top of an incline which makes an angle 0= 30° with the horizontal. The coefficient of sliding friction between the block and the plane is P02 d 2 m 0.2. 2m down the incline: After the block has traveled d m5 kg a) How much work has gravity has done on the block? 8 30 b) How much work has the Normal Force has done on the block? c)...
Studio 2053C Fall 2016: Energy and Work An eraser of mass m = 0.120 kg is released from rest at a distance L = 0.750 m from the bottom of a whiteboard, which is inclined at an angle of 30.0° to the horizontal. The coefficient of kinetic friction between the eraser and whiteboard is μ,-0.125. Use g= 9.81 m/s (1) What is the work done by gravity as the eraser moves from where it is released to the bottom of...
1. A uniform rod of mass M = 5.01kg and length L = 1.18m can
pivot freely (i.e., we ignore friction) about a hinge attached to a
wall, as seen in the figure below.
2. Determine the linear acceleration of the tip of the rod.
Assume that the force of gravity acts at the center of mass of the
rod, as shown.
Please show work for both questions
radusn2. The rod is held horizontally and then released. At the moment...
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