A 4.00 kg mass is located at (2.00 m, 2.00 m, 0.00 m) and a 3.00 kg mass is located at (–1.0 m, 3.00 m, 0.00 m). If this system of masses rotated about the X-axis perpendicular to the Z-Y plane, then the moment of inertia of this system is
A. 24 kg 
B. 36 kg
C. 43 kg
D. 56 kg
E. 62 kg
C. 43 kg
You might also like to view...
When radium-223 (Z = 88) decays to radon-119 (Z = 86), the other particle emitted is a(n) __________
Fill in the blank(s) with correct word
A proton, moving freely, has a wavelength of 0.600 pm
(a) What is its momentum? (b) What is its speed? (c) Through what potential difference might it have been accelerated through, from rest, to reach this speed?
A 2200-kg auto moving northward at 12.0 m/s runs into a 3800-kg truck which is also moving northward, but at 5.00 m/s. If the vehicles lock bumpers, how fast are they moving just after the collision?
What will be an ideal response?
Text, images, and links that establish the website's value are used to answer a website visitor's ______ question.
A. Who? B. What? C. Why? D. Where?