The upper half of the surface of a sphere of radius b is maintained at the...

Find the surface area of upper part of the sphere of radius a, x2 + y2...

Find the surface area of upper part of the sphere of radius a, x2 + y2 + z2 = a2, cut by the cone z = sqrt(x2 + y2). Show the integral that corresponds to the surface area using spherical coordinates.

A hollow, iron sphere of inner radius 16 cm, outer radius 24 cm, and emissivity 0.45...

A hollow, iron sphere of inner radius 16 cm, outer radius 24 cm, and emissivity 0.45 has a 750 gram block of ice at 0◦C suspended at its center with a small drip pan underneath it. (a) What must the temperature of the inside surface of the sphere be for the ice to completely melt in 35 seconds? (b) What must the temperature at the outer surface of the sphere be for the inside temperature to be maintained during the...

An iron sphere has a radius of 0.85 meters and its surface temperature is 370 K....

An iron sphere has a radius of 0.85 meters and its surface temperature is 370 K. It is surrounded by air whose temperature is 300 K. The emissivity of iron and air is 0.985. a. Find the heat flux that is emitted by radiation from the iron sphere. b. Find the net flow of heat from the iron sphere.

Consider a solid sphere with radius equal to 10 cm where an exothermic chemical reaction takes...

Consider a solid sphere with radius equal to 10 cm where an exothermic chemical reaction takes place. The rate of heat generation owing to this reaction is 1,800x103 W m-3. At steady state: a) Determine the temperature profile in the sphere assuming that the temperature at the surface is 40 C and that the thermal conductivity of the material is 30 W m-1 C -1. b) The temperature inside the sphere cannot be allowed to increase over 200 C. Assuming...

Find the surface area of ​​the R-radius sphere. (use integral)

Find the surface area of ​​the R-radius sphere. (use integral)

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D...

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D is theta,K is a constant. Find the potential inside and outside the sphere, as well as the surface charge density s(D) on the sphere.(Assume there is no charge inside or outside the sphere).

Q2a) Show that the potential at the surface of a uniformly charged sphere of radius R...

Q2a) Show that the potential at the surface of a uniformly charged sphere of radius R is V=Kq/R where K = 1/4πɛ₀ and the zero of potential is at infinity). Hence derive an expression for the potential energy of the sphere. (Hint, assemble the sphere from the charges at infinity) b) A parallel plate capacitor has conducting plates, each of area A, situated at y=0 and y=d. two parallel dielectric sheets occupy the space between the plates. Dielectric of relative...

Calculate the volume of the upper half of the unit sphere using a double integral.

Calculate the volume of the upper half of the unit sphere using a double integral.

A hollow sphere of inner radius 8.71 cm and outer radius 9.79 cm floats half-submerged in...

A hollow sphere of inner radius 8.71 cm and outer radius 9.79 cm floats half-submerged in a liquid of density 898.00 kg/m3. (a) What is the mass of the sphere? (b) Calculate the density of the material of which the sphere is made.

The electrostatic potential on the surface of a sphere of radius a is given by V(theta)=V0cos2(theta)....

The electrostatic potential on the surface of a sphere of radius a is given by V(theta)=V0cos2(theta). Solve the boundary=value problem for the sphere and find the electrostatic potential everywhere inside the sphere. Note: cos is squared.