For their science homework, Brenda and Dylan calculated the volume of air that filled a spherical basketball. If the diameter of the basketball was 6, what was the volume of the air inside the basketball, to the nearest integer?

A basketball at 290 K holds 0.92 mol of air molecules. What is the internal energy of the air in the ball?

A solid metallic cone, with radius 6 cm and height 10 cm, is made of some heavy metal A. In order to reduce its weight, a conical hole is made in the cone as shown and it is completely filled with a lighter metal B. The conical hole has a diameter of 6 cm and depth 4 cm. Calculate the ratio of the volume of metal A to the volume of the metal B in the solid.

The figure above shows a metal triangular solid with two equilateral triangle faces and a thickness of 2 cm. The length of each side of a triangular face is 4 cm. A hole with a diameter of 1 cm is drilled through the solid. The density of the metal is 6 grams per cubic centimeter . What is the mass of this solid to the nearest gram ? (Density is mass divided by volume ).

A 1-L flask contains some mercury. It is found that at different temperature, the volume of air inside the flask remains the same. What is the volume of mercury in the flask, given that the coefficient of linear expansion of glass =9xx10^(-6)//^(@)C and the coefficient of volume expansion of Hg=1.8xx10^(-4)//^(@)C ?

A 1-L flask contains some mercury. It is found that at different temperature, the volume of air inside the flask remains the same. What is the volume of mercury in the flask, given that the coefficient of linear expansion of glass =9xx10^(-6)//^(@)C and the coefficient of volume expansion of Hg=1.8xx10^(-4)//^(@)C ?

Consider a cycle tyre being filled with air by a pump. Let V be the volume of the tyre (fixed) and at each stroke of the pump DeltaV(ltltV) of air is transferred to the tube adiabatically. What is the work done when the pressure in the tube is increased from p_(1) to p_(2) ?

In a tyre of "Ferrari" car of Mr. Obama, a tube having a volume of 12.3 litres is filled with air at a pressure of 4 atm at 300 K.Due to travelling, the temperature of the tube and air inside it raised to 360 K and pressure reduced to 3.6 atm in 20 minutes. If the porosity (number of pores per unit area) of the tube material is 5xx10^3 pores/ cm^2 and each pore can transfer air from inside to outside of the tube with the rate of 6.023xx10^8 molecules per minute.Calculate the total surface area (m^2) of the tube.(R=0.082 Lt-atm/mole-K) Give your answer divide by 100.

Water at 20^(@)C is flowing in a horizontal pipe that is 20.0m long.The flow is laminar and the water completely fills the pipe. A pump maintains a gauge pressure of 1400Pa , at a large tank at one end of the pipe. The other end of the pipe is open to the air, The viscosity of water at 20^(@)C is 1.005 poise (a) If the pipe has diameter 8.0 cm , what is the volume flow rate? (b) What gauge pressure must the pump provide to achieve the same volume flow rate for a pipe with a diameter of 4.0cm ? (c) For pipe in part (a) and the same gauge pressure maintained by the pump, what does the volume flow rate become if the water is at a temperature of 60^(@)C (the viscosity of water at 60^(@)C is 0.469 poise?

A glass full of water upto a height of 10 cm has a bottom of are 10 cm^(2) , top of area 30cm^(2) and volume 1 litre. (a) Find the force exerted by the water on the bottom. (b) Find the resultant force exerted by the sides of the glass on the water. (c ) If the glass is convered by a jar and the air inside the jar is completely pumped out, what will be the answer to parts (a) and (b). (d) If a glass of different shape is used, provided the height, the bottom area, the top area and the volume are unchanged, will the answer to parts (a) and (b) change. Take g=10m//s^(3) , density of water =10^(3) kg//m^(3) and atmospheric pressure =1.01xx10^(5)N//m^(2) .

A curved glass vessel full of water upto a height of 10 cm has a bottom of area 10 cm^(2) , top of area 30 cm^(2) and volume 1 L. (i) Find the force exerted by the water on the bottom. (ii) Find the resultant force exerted by the sides of the glass on the water. (iii) If the glass vessel is covered by a jar and the air inside the jar is completely pumped out, what will be the answers to parts (a) and (b) (iv) If a glass vessel of different shape is used provided the height, the bottom area and the volume are unchanged, will the answers to parts (a) and (b) change. (Take, g=10 ms^(-2) , density of water = 10^(3) kgm^(-2) and atmospheric pressure =1.01xx10^(5)Nm^(-2))