Atmospheric pressure is nearly `100 kPa.` How large the force does the air in a room exert on the inside of a window pan that is `40 cm xx 80 cm`?

2.00 mole of a monatomic ideal gas (U=1.5nRT) is enclosed in an adiabatic, fixed , vertical cylinder fitted with a smooth, light adiabatic piston. The piston is connected to a vertical spring of spring constant 200 N m^(-1) as shown in .the area of cross section of the cylinder is 20.0 cm^(2) . initially, the spring is at its natural length and the temperature of the gas is 300K at its natural length. the atmosphere pressure is 100 kPa. the gas is heated slowly for some time by means of an electric heater so as to move the position up through 10 cm. find (a) the work done by the gas (b) the final temperature of the gas and (c ) the heat supplied by the heater.

Water is filled in a flask up to a height of 20 cm. The bottom of the flask is circular with radius 10 cm. If the atmospheric pressure is 1.01xx10^5 Pa, find the force exerted by the water on the bottom. Take g=10 ms^-2 and density of water =1000 kgm^-3.

A cylinder of ideal gas is closed by an 8kg movable piston of area 60cm^2 . The atmospheric pressure is 100kPa. When the gas is heated form 30^@C to 100^@C , the piston rises 20 cm. The piston is then fastened in the place and the gas is cooled back to 30^@C . If DeltaQ_1 is the heat added to the gas during heating and DeltaQ_2 is the heat lost during cooling, find the difference.

A cylinder of ideal gas is closed by an 8kg movable piston of area 60cm^2 . The atmospheric pressure is 100kPa. When the gas is heated form 30^@C to 100^@C , the piston rises 20 cm. The piston is then fastened in the place and the gas is cooled back to 30^@C . If DeltaQ_1 is the heat added to the gas during heating and DeltaQ_2 is the heat lost during cooling, find the difference.

Figure shows a cylindrical container containing oxyegn (gamma = 1.4) and closed by a 50 kg frictionless piston. The area of cross section is 100cm(2) , atmospheric pressure is 100 kPa +E2 and g is 10 m s^(-2) . The cylinder is slowly heated for some time. Find the amount of heat supplied to gas if the piston moves out through a distsnce of 20 cm. .

a. Estimate the force with which a karate master strikes a board, assuming that hand's speed at the moment of impact is 10.0ms^(-1) , decreasing to 1.00ms^(-1) during a 0.002 s time interval of contact between the hand and the board. The mass of his hand and arm is 1.00 kg . b Estimate the shear, assuming this force it exerted on a 1.00 cm thick pine board that is 10.0 cm wide. c. If we maximum shear stress a pine board can support before breaking is 3.60xx10^(6)N//m^(2) , will the board break?

The pressure gauge shown in figure has a spring for which k=60N//m and the area of the piston is 0.50cm^(2) . Its right end is connected to a closed container of gas at a gauge pressure of 30kPa . How far will the spring be compressed if the region containing the spring is (a) in vacuum and (b) open to the atmosphere? Atmospheric pressure is 101kPa .

An ideal gas is kept in a long cylindrical vessel fitted with a frictionless piston of cross-sectional area 10cm^(2) and weight 1kg.The vessel itself is kept in a big chamber containing air at atmospheric pressure 100kPa. The length of the gas column is 20cm.if the chamber is now completely evacuated by an exhaust pump, what will be the length of the gas column? Assume the tempaerature to remain constant throughout the process.

A wind with speed 40m//s blows parallel to the roof of a house. The area of the roof is 250 m^(2) . Assuming that the pressure inside the house is atmospheric pressure, the force exerted by the wind on the roof and the direction of the force will be (P_(air) = 1.2 kg//m^(3))

Calculate the excess pressure withing a bubble of air of radius 0.1 mm in water. If te bubble had been formed 10 cm below the water surface on a day when the atmospheric pressure was 1.013xx10^(3)Pa then what would have been the total pressure inside the bubble? surface tension of water =73xx10^(-3)N//m