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Question5 10 pts A closed spherical shell that has a radius of 0.17m is lowered into...
A closed spherical shell that has a radius of 0.17m is lowered into a liquid with a density of 1260 kg/m3. The air pressure inside the shell is 1 atmosphere. When the shell is lowered 12.3m below the surface, what is the net force on the shell in Newtons? The surface area of a spherical shell is 4TTR2the volume of a spherical shell is 41TR3/3 55,000 O 65,000 35,000 O 85,000 Next No newdata to save Lastichecked at 10:01 am...
A closed spherical shell that has a radius of 0.17m is lowered into a liquid with a density of 1260 kg / (m^3). The air pressure inside the shell is 1 atmosphere . When the shell is lowered 12.3m below the surface , what is the net force on the shell in Newtons ? The surface area of a spherical shell is 4Pi * R^2 the volume of a spherical shell is 4Pi * R^3/3
A thin spherical shell has a mass of 2 kg when it is empty, radius 0.2 meters, and a volume of 0.0335 m3. It is filled with helium (density=0.179 kg/m3) and released from rest at the bottom of a pool of water that is 4 meters deep. (density of water= 1000 kg/m3). 1. Show that the shell rises with constant acceleration and determine the acceleration. 2. How long does it take the top of the shell to reach the water...
A non-conducting sphere of radius ri=5cm is located at the centre of a conducting spherical shell of inner and outer radii, r2=10cm and r3=15cm respectively. Both are located at the centre of a non-conducting spherical shell with inner and outer radii of r4=20cm and r5=25cm respectively. If the volume charge density is p=5uC/m3 and the surface charge density is o= 5°C/m2, determine the electric field when R=2.5cm, 7.5cm, 12.5cm, 17.5cm, 22.5cm and 27.5cm. non-conducting spherical shell conducting spherical shell non-conducting...
10.4) Thick insulating shell A thick insulating spherical shell has inner radius a and outer radius b. The shell carries a uniform volume charge density po. [A cross-sectional view of the shell is shown to the right.] (a) Consider a spherical Gaussian surface of radius r concentric with the shell. How much charge is enclosed in the Gaussian surface for p <a, a <r <b, and r > b? (b) What does symmetry dictate about the magnitude and direction of...
A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d. The inner shell has total charge +2q, and the outer shell has charge +4q. (a) Calculate the magnitude of the electric field in terms of q and the distance r from the common center of the two shells for r < a, b < r < c, and r > d. Note...
PART B (ANSWER ALL QUESTION FROM PART B) (a) A thin-walled titanium alloy spherical shell has a 1 m inside diameter and is 7 mm thick. It is completely filled with an unpressurized, incompressible liquid. Through a small hole an additional 1000 cm of the same liquid is pumped into the shell, thus increasing the shell radius. For this titanium allow E = 114 GPa and the tensile yield point of the material to be 830 MPa. Determine: (0) The...
A non-conducting thick spherical shell with inner radius a = 5 cm and outer radius b = 10 cm has a uniformly distributed volume charge density of p = 1.3 nC/m2. a) What is the total charge on the shell? Hint: think of the shell as a solid sphere with a volume in the center that's missing. b) Calculate the maximum electric field strength. c) Calculate the electric field at r = 2 cm. d) Calculate a symbolic equation for...
Can someone prove those four equations for me? Applying Gauss's Law. Spherical Symmetrv: A shell of uniform charge attracts or repels a charged particle that is outside the shell as if all the shell's charge were concentrated at the center of the shell If a charged particle is located inside a shell of uniform charge, there is no electrostatic force on the particle from the shell. Enclosed charge is q Gaussian surface Si The dots represent a spherically symmetric distribution...
Problem 2. (20 pts) As shown in the figure, uniform generation occurs inside the spherical core with a radius n due to reactive heating at a rate of q 10 W/m3. The thermal conductivity of the reactive material is 20 Wm. K. The spherical shell 1Sr is made of stainless steel (s.s.) with a thermal conductivity k2 -15 W/m K. Given 0.5 m and k2 72=0.6 m, water flows outside to cool the s.s. shell at To-25°C and h =...