A sphere with a volume V and a radius of r is compressed (flattened) into the...

classical Mechanics problem: Find the ratio of the radius R to the height H of a...

classical Mechanics problem: Find the ratio of the radius R to the height H of a right-circular cylinder of fixed volume V that minimizes the surface area A.

Assume that the radius r of a sphere is expanding at a rate of 40 cm/min....

Assume that the radius r of a sphere is expanding at a rate of 40 cm/min. The volume of a sphere is V = (4/ 3) π r ^3 and its surface area is 4 π r ^2 . Determine the rate at which the volume is changing with respect to time at t = 2 min, assuming that r = 0 at t = 0 .

Let V be the volume of a cylinder having height h and radius r, and assume...

Let V be the volume of a cylinder having height h and radius r, and assume that h and r vary with time. (a) How are dV /dt, dh/dt, and dr/dt related? (b) At a certain instant, the height is 18 cm and increasing at 3 cm/s, while the radius is 30 cm and decreasing at 3 cm/s. How fast is the volume changing at that instant? Is the volume increasing or decreasing at that instant?

The diagram shows a toy. The shape of the toy is a cone, with radius 4...

The diagram shows a toy. The shape of the toy is a cone, with radius 4 cm and height 9 cm, on top of a hemisphere with radius 4 cm. Calculate the volume of the toy. Give your answer correct to the nearest cubic centimetre. [The volume, V, of a cone with radius r and height h is V = 3 1 πr 2h.] [The volume, V, of a sphere with radius r is V = 3 4 πr 3.]

Charge Q is distributed uniformly throughout the volume of an insulating sphere that has radius R....

Charge Q is distributed uniformly throughout the volume of an insulating sphere that has radius R. What is the potential difference between the center of the sphere and the surface of the sphere?

Suppose the radius, height and volume of a right circular cylinder are denoted as r, h,...

Suppose the radius, height and volume of a right circular cylinder are denoted as r, h, and V . The radius and height of this cylinder are increasing as a function of time. If dr/dt = 2 and dV/dt = 10π when r = 1, h = 2, what is the value of dh/dt at this time?

The volume of a cylinder can be computed as: v = π * r * r...

The volume of a cylinder can be computed as: v = π * r * r * h Write a C++ function that computes the volume of a cylinder given r and h. Assume that the calling function passes the values of r and h by value and v by reference, i.e. v is declared in calling function and is passed by reference. The function just updates the volume v declared in calling function. The function prototype is given by:...

A sphere of radius R is completely submerged in a container of water. The sphere displaces...

A sphere of radius R is completely submerged in a container of water. The sphere displaces 1m^3 of water. What is the buoyant force? Assume the density of water ρw = 1000kg/m3 . Hint: The volume of a sphere is given by V = 4/3πR3 Then, find the density of the sphere given that its weight in air is 15, 000 kg · m/s2 and the radius R = 1m

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge density ρ = rρs/R, where ρs is a constant and    r is the distance from the centre of the sphere.    Show that:    (a) the total charge on the sphere is Q = π ρsR3 and    (b) the magnitude of the electric field inside the sphere is given by the    equation        E = (Q r2 / 4π ε0R4)

A sphere of radius R carries a polarization , where is a constant. (note that there...

A sphere of radius R carries a polarization , where is a constant. (note that there is no free charge) What is the surface bound charge and the volume bound charge . Find the electric field inside and outside the sphere. (Hint: you can use the result of Q1 to calculate the electric field inside the sphere, that the total charge due to polarization vanishes. Outside the sphere, calculate the enclosed charge from the volume bound charge)