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A uniform rod of length L (2.00 m) and mass M (5.00 Kg) is free to...
4(12 points) A uniform rod of length L and mass M is attached at one end...
4(12 points) A uniform rod of length L and mass M is attached at one end to a frictionless pivot and is free to rotate about the pivot in the vertical plane as in Figure. The rod is released from rest in the horizontal position. (a)What are the initial angular acceleration of the rod and the initial translational acceleration of its right end (as shown in Fig.a)? (b)What is its angular speed when the rod reaches its lowest position (as...
The figure below shows a uniform rod of length L=1.0 m and mass M (not required...
The figure below shows a uniform rod of length L=1.0 m and mass
M (not required in answer) which is free to rotate about one end,
and which is initially at rest at an angle θ=40º with respect to
the horizontal. Find the (linear) speed of the center of mass of
the rod when it reaches the vertical position (θ=-90°).
Pin
The figure below shows a uniform rod of length L=0.9 m and mass M (not required...
The figure below shows a uniform rod of length L=0.9 m and mass
M (not required in answer) which is free to rotate about one end,
and which is initially at rest at an angle θ=40º with respect to
the horizontal. Find the (linear) speed of the center of mass of
the rod when it reaches the vertical position (θ=-90°).
o Pin
The figure below shows a uniform rod of length L=1.1 m and mass M (not required...
The figure below shows a uniform rod of length L=1.1 m and mass M (not required in answer) which is free to rotate about one end, and which is initially at rest at an angle 8=40° with respect to the horizontal. Find the linear) speed of the center of mass of the rod when it reaches the vertical position (=-90°). o Pin Select one: 6.19 m/s 4.01 m/s 4.37 m/s 3.64 m/s 1.82 m/s
The diagram shows a thin rod of uniform mass distribution plvoted about one end by a...
The diagram shows a thin rod of uniform mass distribution plvoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. (a) (a) Determine the speed of its center of gravity at its lowest position in m/s. Consider the conservation of energy of the center of mass of...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.290 kg and its length is 1.30 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. Determine the speed of its center of gravity at its lowest position. m/s When the rod reaches the vertical position, calculate the tangential speed of the free...
The figure below shows a uniform rod of length L=1.3 m and mass M (not required...
The figure below shows a uniform rod of length L=1.3 m and mass M (not required in answer) which is free to rotate about one end, and which is initially at rest at an angle θ=40º with respect to the horizontal. Find the (linear) speed of the center of mass of the rod when it reaches the vertical position (θ=-90°).
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. M L/2 . CG (a) Determine the speed of its center of gravity at its lowest position. 1.20 Consider the conservation of energy of the center of...
The uniform thin rod in the figure below has mass M = 4.00 kg and length...
The uniform thin rod in the figure below has mass M =
4.00 kg and length L = 2.21 m and is free to rotate on a
frictionless pin. At the instant the rod is released from rest in
the horizontal position, find the magnitude of the rod's angular
acceleration, the tangential acceleration of the rod's center of
mass, and the tangential acceleration of the rod's free end.
(a)
the rod's angular acceleration (in rad/s2)
rad/s2
(b)
the tangential acceleration...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. M L/2 1.CG (a) Determine the speed of its center of gravity at its lowest position. m/s (b) When the rod reaches the vertical position, calculate the...
4(12 points) A uniform rod of length L and mass M is attached at one end to a frictionless pivot and is free to rotate about the pivot in the vertical plane as in Figure. The rod is released from rest in the horizontal position. (a)What are the initial angular acceleration of the rod and the initial translational acceleration of its right end (as shown in Fig.a)? (b)What is its angular speed when the rod reaches its lowest position (as...
The figure below shows a uniform rod of length L=1.0 m and mass
M (not required in answer) which is free to rotate about one end,
and which is initially at rest at an angle θ=40º with respect to
the horizontal. Find the (linear) speed of the center of mass of
the rod when it reaches the vertical position (θ=-90°).
Pin
The figure below shows a uniform rod of length L=0.9 m and mass
M (not required in answer) which is free to rotate about one end,
and which is initially at rest at an angle θ=40º with respect to
the horizontal. Find the (linear) speed of the center of mass of
the rod when it reaches the vertical position (θ=-90°).
o Pin
The figure below shows a uniform rod of length L=1.1 m and mass M (not required in answer) which is free to rotate about one end, and which is initially at rest at an angle 8=40° with respect to the horizontal. Find the linear) speed of the center of mass of the rod when it reaches the vertical position (=-90°). o Pin Select one: 6.19 m/s 4.01 m/s 4.37 m/s 3.64 m/s 1.82 m/s
The diagram shows a thin rod of uniform mass distribution plvoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. (a) (a) Determine the speed of its center of gravity at its lowest position in m/s. Consider the conservation of energy of the center of mass of...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.290 kg and its length is 1.30 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. Determine the speed of its center of gravity at its lowest position. m/s When the rod reaches the vertical position, calculate the tangential speed of the free...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. M L/2 . CG (a) Determine the speed of its center of gravity at its lowest position. 1.20 Consider the conservation of energy of the center of...
The uniform thin rod in the figure below has mass M =
4.00 kg and length L = 2.21 m and is free to rotate on a
frictionless pin. At the instant the rod is released from rest in
the horizontal position, find the magnitude of the rod's angular
acceleration, the tangential acceleration of the rod's center of
mass, and the tangential acceleration of the rod's free end.
(a)
the rod's angular acceleration (in rad/s2)
rad/s2
(b)
the tangential acceleration...
The diagram shows a thin rod of uniform mass distribution pivoted about one end by a pin passing through that point. The mass of the rod is 0.490 kg and its length is 2.40 m. When the rod is released from its horizontal position, it swings down to the vertical position as shown. M L/2 1.CG (a) Determine the speed of its center of gravity at its lowest position. m/s (b) When the rod reaches the vertical position, calculate the...
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