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A thin rod (length 2.24 m) is oriented vertically, with its bottom end attached to the...
A thin rod (length = 2.98 m) is oriented vertically, with its bottom end attached to...
A thin rod (length = 2.98 m) is oriented vertically, with its bottom end attached to the floor by means of a frictionless hinge. The mass of the rod my be ignored, compared to the mass of an object fixed to the top of the rod. The rod, starting from rest, tips over and rotates downward. What is the angular speed of the rod just before it strikes the floor? Consider using the principle of conservation of mechanical energy.
A thin uniform rod (of mass 10.0kg and length of 1.20m) is attached to a friction-free...
A thin uniform rod (of mass 10.0kg and length of 1.20m) is
attached to a friction-free pivot. Initially, the rod is balanced
vertically above the pivot (position A in Figure
A2.18). If the rod falls from rest, calculate
the angular acceleration at position B.
the angular velocity at position C.
A thin uniform rod (of mass 10.0kg and length of 1.20 m) is attached to a friction-free pivot. Initially, the rod is balanced vertically above the pivot (position A in...
A uniform thin rod of length 0.500 m and mass 4.00 kg is attached to a...
A uniform thin rod of length 0.500 m and mass 4.00 kg is attached to a pivot at one end. The other end of the rod is attached to a uniform sphere with a mass of 2.00 kg and a radius of 0.100 m. The rod and sphere initially hang vertically. A bullet with a mass of 5.00 g is fired horizontally at a speed of 200 m/s into the center of the sphere. The bullet embeds itself in the...
1. A thin rod of mass M and length d hangs vertically from a frictionless pivot...
1. A thin rod of mass M and length d hangs vertically from a frictionless pivot attached to one end. A piece of clay of mass m moving horizontally at a speed v hits the rod a distance x from the pivot and sticks to it. Discussion Questions: (In the first 5-10 min a random group will be selected to explain.) • What “type” of collision is happening? What is and is not conserved? • Consider the analogous linear momentum...
A long, thin rod of mass M and length L is standing straight up on a...
A long, thin rod of mass M and length L is standing straight up on a table. Its lower end rotates on a frictionless pivot. A very slight push causes the rod to fall over. A. As it hits the table, what is the angular velocity of the tip of the rod? B. What is the speed of the tip of the rod?
A thin rod has a length of 0.834 m and rotates in a circle on a...
A thin rod has a length of 0.834 m and rotates in a circle on a frictionless tabletop. The axis is perpendicular to the length of the rod at one of its ends. The rod has an angular velocity of 0.610 rad/s and a moment of inertia of 1.42 x 10-3 kg·m2. A bug standing on the axis decides to crawl out to the other end of the rod. When the bug (whose mass is 5 x 10-3 kg) gets...
A thin rod has a length of 0.266 m and rotates in a circle on a...
A thin rod has a length of 0.266 m and rotates in a circle on a frictionless tabletop. The axis is perpendicular to the length of the rod at one of its ends. The rod has an angular velocity of 0.796 rad/s and a moment of inertia of 1.19 x 10-3 kg·m2. A bug standing on the axis decides to crawl out to the other end of the rod. When the bug (whose mass is 5 x 10-3 kg) gets...
A thin rod has a length of 0.109 m and rotates in a circle on a...
A thin rod has a length of 0.109 m and rotates in a circle on a frictionless tabletop. The axis is perpendicular to the length of the rod at one of its ends. The rod has an angular velocity of 0.923 rad/s and a moment of inertia of 1.40 x 10-3 kg·m2. A bug standing on the axis decides to crawl out to the other end of the rod. When the bug (whose mass is 5 x 10-3 kg) gets...
3. A solid, thin, uniform rod (length- 1.50m & mass-2.30kg) is atached to a frictionless hinge...
3. A solid, thin, uniform rod (length- 1.50m & mass-2.30kg) is atached to a frictionless hinge at one end, w end. A horizontal force (F) applied to the other end of the rod rotates it until the attached rope is vertical and the tension in the rope is 35.0N. In this orientation, the angle between the rod and the ground is 25° a. Calculate the gravitational torque exerted on the rod. b. Determine the torque due to the force, F....
A uniform rod with a mass m and length L has one end attached to a...
A uniform rod with a mass m and length L has one end attached to a pivot. The rod swings around on a frictionless horizontal table with angular speed wo. A ball with mass m (so same mass as the rod) is placed on the table a distance d from the pivot. The ball is made of clay so when the rod strikes it, the ball sticks to the rod (i.e., inelastic collision). If the final (post-collision) angular velocity of...
A thin uniform rod (of mass 10.0kg and length of 1.20m) is
attached to a friction-free pivot. Initially, the rod is balanced
vertically above the pivot (position A in Figure
A2.18). If the rod falls from rest, calculate
the angular acceleration at position B.
the angular velocity at position C.
A thin uniform rod (of mass 10.0kg and length of 1.20 m) is attached to a friction-free pivot. Initially, the rod is balanced vertically above the pivot (position A in...
3. A solid, thin, uniform rod (length- 1.50m & mass-2.30kg) is atached to a frictionless hinge at one end, w end. A horizontal force (F) applied to the other end of the rod rotates it until the attached rope is vertical and the tension in the rope is 35.0N. In this orientation, the angle between the rod and the ground is 25° a. Calculate the gravitational torque exerted on the rod. b. Determine the torque due to the force, F....
A uniform rod with a mass m and length L has one end attached to a pivot. The rod swings around on a frictionless horizontal table with angular speed wo. A ball with mass m (so same mass as the rod) is placed on the table a distance d from the pivot. The ball is made of clay so when the rod strikes it, the ball sticks to the rod (i.e., inelastic collision). If the final (post-collision) angular velocity of...
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