the same irregular shape rotated about two different axes: one at its center, and one nearer to the edge. Which has the greater moment of inertia? Explain without using an equation.
the same irregular shape rotated about two different axes: one at its center, and one nearer...
6. A set of two bars welded together can be rotated about any of the axes shown above. What is the order of the moment of nertia of this object about each of these axes, from smallest to largest? l Axis II Axis III Axis I 鬥. The moment of inertia is the same for all three, since it is the same object.
Figure 1:Part A: A baseball bat can be rotated around many different axes of rotation. Three such possibilities are shown in (Figure 1) . Rank the baseball bat's moment of inertia about each of these three axes of rotation.Rank the moment of inertia from largest to smallest and overlap axes labels if the same.Part B: Given the same baseball bat and possible axes of rotation shown in (Figure 1) , for which axis of rotation would it be the easiest...
12.The moment of inertia of a solid cylinder rotated about the center (point x) is MR2. What is the moment of inertia if the disk is rotated about a point at the edge 2 of the disk, as shown below (about point O)? A) MR2 B)를MR2 C)을MR2 D)It cannot be determined 10
Ball a, of mass ma, is
connected to ball b, of mass mb, by a
massless rod of length L. The two
vertical dashed lines in the figure, one througheach ball,
represent two different axes of rotation, axes a and b. These axes are parallel to each other and perpendicular
to the rod. The moment of inertia of the two-masssystem about axis a is Ia, and the
moment of inertia of the system about axis b is Ib. It is
observed that the ratio...
9. A disc is rotating about a axis through the center at a constant angular velocity oo. Two ants of equal mass suddenly drop onto the edge the disc and gets stuck to the rotating disc. Does the Moment of Inertia of the system increase or decrease? Explain a. b. Does the angular velocity increase or decrease? Explain 01 c. Now suppose the two ants start moving toward the center at a constant speed. i.Does the moment of inertia increase...
Problem 7 A satellite consists two cylinders which can rotate relative to each other about the common axis of summetry. The rotation can be precisely controlled through a built-in motor. Both cyllinders can be asuumed to be uniform; they have the same mass, m 10.0 kg, and the same radius 0.30 m. The top cylinder has attached to it two balls, each of which has mass 1.0kg and radius b 0.1 m. Each ball is fastened to the end of...
Physics problem
A 3-dimensional object actually has THREE principle moments of inertia - the moments of inertia about the three mutually perpendicular "principle" axes. Take a rectangular book or object that has three different dimensions (length, width and height), so that it has three different moments of inertia, and try to spin it around the three principle axes (the axes that are perpendicular to each face of the object and pass through the center of it). Only one axis produces...
A playground carousel is free to rotate about its center on frictionless bearings, and air resistance is negligible. The carousel itself (without riders) has a moment of inertia of 125 kg�m2. When one person is standing at a distance of 1.50 m from the center, the carousel has an angular velocity of 0.700 rad/s. However, as this person moves inward to a point located 0.750 m from the center, the angular velocity increases to 0.870 rad/s. What is the person's...
A metal disc spins with an angular velocity ω0 about its center. A second disc (initially stationary) is dropped on top of the first disc. The second disc is made of the same material as the first but has only half the diameter (so its mass will also be smaller). (a) Show that the moment of inertia of the second disc is 1/16th the moment of inertia of the first. (b) State why the angular momentum of the system (the...
As seen from above, a playground carousel is rotating counterclockwise about its center on frictionless bearings. A person standing still on the ground grabs onto one of the bars on the carousel very close to its outer edge and climbs aboard. Thus, this person begins with an angular speed of zero and ends up with a nonzero angular speed, which means that he underwent a counterclockwise angular acceleration. The carousel has a radius of 1.56 m, an initial angular speed...