A hollow cylinder of mass M has an outer radius of 10 cm. Calculate the inner radius of the cylinder, if the cylinder is to roll down an incline in the same time as a spherical shell of mass M and radius 10 cm. You may assume that the moment of inertia of a spherical shell of mass M and radius R is 2MR2/3.
answer: 5.8 cm
A hollow cylinder of mass M has an outer radius of 10 cm. Calculate the inner...
Question 9 10 pts A hollow cylinder of outer radius R = 14 cm and mass M = 100 g with moment of inertia about the center of mass Icom = MR2 starts from rest and moves down an incline tilted at an angle 0 = 38° from the horizontal. The center of mass of the cylinder has dropped a vertical distance h= 131 cm when it reaches the bottom of the incline. The coefficient of static friction between the...
A 5-m long hollow insulating cylinder of inner radius, a 10 cm, and outer radius, b 15 cm, carries a constant volume charge density 2.5x 108/munifomly distributed throughout its entire volume. Determine the magnitude of the electric field at the following radial distances measured from the symmetry axis of the cylinder (a) r=6cm; (b) = 12 cm; (c) r=18 cm. [(a) ?; (b) 51.8 N/C, radially outward; (c) 98N/C, radially outward
A hollow aluminum cylinder is 2.50 m long and has an inner radius of 2.75 cm and an outer radius of 4.60 cm. Treat each surface (inner, outer, and the two end faces) as an equipotential surface. Part A At room temperature, what will an ohmmeter read if it is connected between the opposite faces? Express your answer with the appropriate units. μΑ ? R= 1.5 • 10-5 Ω Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts...
As shown in the figure, a long, hollow, conducting cylinder of
inner radius a and outer radius b carries a
current that is flowing out of the page. Suppose that a =
4.13 cm, b = 7.83 cm, and the current i = 273 mA,
uniformly distributed over the cylinder wall (between a
and b). Find the magnitude of the magnetic field at each
of the following distances r from the center of the
cylinder:
As shown in the figure,...
Part A A neutral hollow spherical conducting shell of inner radius 1.00 cm and outer radius 3.00 cm has a +2.00-μC point charge placed at its center. (a) Find the surface charge density on the inner surface of the shell. Part B (b) Find the surface charge density on the outer surface of the shell.
A thick walled cylinder has a light string
wrapped around its outer radius and rotates
about a horizontal axis. The string then goes
vertically straight up and over a massive
pulley that also rotates about a horizontal
axis, and finally connects to a mass m =
0.900 kg on a rough incline (μk = 0.200) that
is angled at 25.0° to the horizontal.
When the system is released from rest the mass slides down the ramp
a distance of 1.80...
Problem 8: A hollow non-conducting spherical shell has inner radius R1 =9 cm and outer radius R2 = 15 cm. A charge Q = -35 nC lies at the center of the shell. The shell carries a spherically symmetric charge density Q = Ar for R1 < r < R2 that increases linearly with radius, where A = 16 μC/m4. Part (a) Write an equation for the radial electric field in the region r < Ry in terms of Q, r, and...
A hollow non-conducting spherical shell has inner radius R1=5 cm and outer radius R2=12 cm. A charge Q=-25 nC lies at the center of the shell. The shell carries a spherically symmetric charge density Q=Ar for R1 < r < R2 that increases linearly with radius, where A 21 uC/m4 Part (a) Write an equation for the radial electric field in the region r < R1 in terms of Q, r, and Coulomb's constant k. You may take the positive direction...
As shown in the figure, a long, hollow, conducting cylinder of
inner radius a and outer radius b carries a
current that is flowing out of the page. Suppose that a =
4.49 cm, b = 7.85 cm, and the current i = 127 mA,
uniformly distributed over the cylinder wall (between a
and b). Find the magnitude of the magnetic field at each
of the following distances r from the center of the
cylinder:
a) r = 6.49 cm.
As shown in the figure, a long, hollow, conducting cylinder of
inner radius a and outer radius b carries a
current that is flowing out of the page. Suppose that a =
4.07 cm, b = 7.23 cm, and the current i = 221 mA,
uniformly distributed over the cylinder wall (between a
and b). Find the magnitude of the magnetic field at each
of the following distances r from the center of the
cylinder:
a) r = 6.05 cm....