[" For the system as shown in figure,the cylinder "],[" on the left,at L,has a mass of "600kg" and a cross- - "],[" sectional area of "800cm^(2)." The piston on the "],[" apparatus is filled with oil "(rho=0.78g/cm^(3))," what "],[" is the force "F" required to hold the system in "],[" equilibrium? "]

For the system shown in figure, the cylinder on the left, at L, has a mass of 600 kg and a cross-sectional area of 800 cm^(2) . The piston on the right, at S, has cross-sectional area 25 cm^(2) and negligible weight. If the apparatus is filled with oil (rho=0.78 g//cm^(3)) , what is the force F required to hold the system is equilibrium? .

For the system shown in figure, the cylinder on the left, at L, has a mass of 600 kg and a cross-sectional area of 800 cm^(2) . The piston on the right, at S, has cross-sectional area 25 cm^(2) and negligible weight. If the apparatus is filled with oil (rho=0.78 g//cm^(3)) , what is the force F required to hold the system is equilibrium? .

For the system shown in the figure the cylinder on the left at L has a mass of 600 kg and a cross sectional area of 800cm^(2) the piston on the right at S has cross sectional area 25cm^(2) and negligible weight if the apparatus is filled with oil (rho=0.75gm//cm^(3)) find thhe force F required to hold the system in equilibrium.

For the system shown in the figure the cylinder on the left at L has a mass of 600 kg and a cross sectional area of 800cm^(2) the piston on the right at S has cross sectional area 25cm^(2) and negligible weight if the apparatus is filled with oil (rho=0.75gm//cm^(3)) find thhe force F required to hold the system in equilibrium.

A cylinder fitted with piston as shown in figure. The cylinder is filled with water and is taken to a place where there is no gravity mass of the piscton is 50 kg. the system is accelerated with acceleration 0.5m//sec^(2) in positive x-direction find the force exerted by fluid on the surface AB of the cylinder in decanewton. Take area of cross-section of cylinder to be 0.01 m^(2) and neglect atmospheric pressure (1 deca newton=10N)

A cylinder fitted with piston as shown in figure. The cylinder is filled with water and is taken to a place where there is no gravity mass of the piscton is 50 kg. the system is accelerated with acceleration 0.5m//sec^(2) in positive x-direction find the force exerted by fluid on the surface AB of the cylinder in decanewton. Take area of cross-section of cylinder to be 0.01 m^(2) and neglect atmospheric pressure (1 deca newton=10N)

A cylinder fitted with piston as shown in figure. The cylinder is filled with water and is taken to a place where there is no gravity mass of the piscton is 50 kg. the system is accelerated with acceleration 0.5m//sec^(2) in positive x-direction find the force exerted by fluid on the surface AB of the cylinder in decanewton. Take area of cross-section of cylinder to be 0.01 m^(2) and neglect atmospheric pressure (1 deca newton=10N)

A force of 500 N acts on the bullet of area of cross -section 0.5cm^(2) . What is the pressure on bullet in S.I. system?

Air is contained in a vertical piston – cylinder assembly fitted with an electric heater. The piston has a mass of 50 kg and cross sectional area of 0.1 m^(2) . Mass of the air inside the cylinder is 0.3 kg. The heater is switched on and the volume of the air slowly increases by 0.045 m^(3) . It was found that the internal energy of the air increased by 32.2 kJ//kg and that of the piston increased by 0.06 kJ/kg. Assume that the container walls and outer surface of the piston are well insulated and there is no friction. The atmospheric pressure is 100 kPa. Determine the heat transferred by the heater to the system consisting of air and the piston.