Answer question
A uniform rod of mass 3.00x10-2kg and length 0.420m rotates in a horizontal plane about a...
uniform rod of mass 3.30×10−2 kg and length 0.450 m rotates in a horizontal plane about a fixed axis through its center and perpendicular to the rod. Two small rings, each with mass 0.250 kg , are mounted so that they can slide along the rod. They are initially held by catches at positions a distance 5.40×10−2 m on each side from the center of the rod, and the system is rotating at an angular velocity 30.0 rev/min . Without...
A uniform rod of mass 2.75×10−2 kg and length 0.400 m rotates in a horizontal plane about a fixed axis through its center and perpendicular to the rod. Two small rings, each with mass 0.190 kg , are mounted so that they can slide along the rod. They are initially held by catches at positions a distance 4.70×10−2 m on each side from the center of the rod, and the system is rotating at an angular velocity 35.0 rev/min ....
Problem 10.88 25 of 25 Part A Constants A uniform rod of mass 3.35x102 kg and length 0.380 m rotates in a horizontal plane about a fixed axis through its center and perpendicular to the rod Two small rings, each with mass 0.170 kg,are mounted so that they can slide along the rod. They are initially held by catches at positions a distance 4.70x10 m on each side from the center of the rod, and the system is rotating at...
A uniform 0.030 kg rod of length 0.40 m rotates in a horizontal plane about a fixed vertical axis through its center. Two small rings, each with a mass of 0.020 kg can slide along the rod. They are initially held by catches at a position 0.050 m on either side of the rod’s center. The rod is rotationally accelerated to 30.0 rpm and then left to spin freely with no friction. While the rod is spinning, the catches are...
2. The ends of uniform rod AB can slide along the horizontal floor and the inclined plane. At the instant shown, the end A is moving at a constant velocity of 2.5 to the left. Using the concept of the instantaneous center of zero velocity, determine (a) the angular velocity of the rod and (b) the velocity of end B of the rod. Also determine the acceleration of the mass center of the rod, G, which is located at the...
(10 points) A uniform rod of length L=2m and mass M#2kg is pivoted about a horizontal frict o less pi rod is released from rest at an angle of 30° below the horizontal. The moment of inertia of the rod abou 2 kgm2. a) Draw a diagram of the question showing all related quantities, (5 points) b) Find the angular speed of the rod when it passes through the ve vertical position (5 points
A thin uniform rod (mass= 4.0 kg, length= 120.cm) rotates about an axis that is perpendicular to the rod; the axis intersects the rod at 1/3 of the rod's length. The rod rotates about the axis at the rate of 8 full revolutions per second. a. Compute the rotational Inertia of the rod based on the given axis of rotation. b. Compute the magnitude of the angular velocity in radians per second c. Compute the tangential speed of the end...
A uniform rod of mass 2.00 kg and length 2.00 m is capable of rotating about and passing through its center and perpendicular to its length. A mass m, m, 2.70 kg is attached to the other end of the red treat the two massess point partides. 5.50 kg is attached to one end and a seconds (a) What is the moment of inertia of the system in kg.my (6) If the rod rotates with an angular speed of 2.60...
A rod without a mass is 2 meters in length. On each end of the rod is a 2kg mass. (a) Calculate the moment of inertia of this rod about an axis that is perpendicular to the center of the rod. (b) Find its angular momentum if the rod rotates through that same axis with an angular velocity of 10 rad/s.
A light rod of length ℓ = 1.00 m rotates about an axis perpendicular to its length and passing through its center as in the figure below. Two particles of masses m1 = 4.80 kg and m2 = 3.00 kg are connected to the ends of the rod. (a) Neglecting the mass of the rod, what is the system's kinetic energy when its angular speed is 2.20 rad/s? J (b) Repeat the problem, assuming the mass of the rod is...