Refferring to the previous illustration . If the pressure of the gas in the container is equal to ` 2xx10^(5)`Pa , find the corresponding length of the water column

The pressure of a gas is 100 k Pa. if it is compressed from 1 m^(3) to 10 dm^(3) , find the work done .

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 length of the gas column in the vessel mow taken into a spaceship revolving round the earth as satellite. The air pressure in the spaceship is amintained at 100kPa. Find the length of the gas column in the cylinder.

A gas thermometer is used as a standard thermometer for measurement of temperature. When the gas container of the thermometer is immersed in water at its triple point 273.16K , the pressure in the gas thermometer reads 3.0xx10^4N//m^2 . When the gas container of the same thermometer is immersed in another system, the gas pressure reads 3.5xx10^4N//m^2 . The temperature of this system is therefore __________ .^@C .

A gas of volume 100 cc, is kept in a vessel at pressure 10^(4) Pa maintained at temperature of 24^(@)C . If now the pressure is incresed to 10^(5) Pa, keeping the temperature constant, then the volume of the gas becomes.

Water is filled in a flask upto a height of 20cm . The bottom of the flask is circular with radius 10 cm . If the atmospheric pressure is 1.013xx10^(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 constant - volume gas thermometer is used to measure the temperature of an object . When the thermometer is in contact with water at its triple point (273K) the pressure in the thermometer is 8.50 xx10^(4) Pa . When it is contact with the object the pressure is 9.650 xx10^(4) Pa . The real temperature of the object is

Water is filled in a flask up top a heightof 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 gas of volume 100cc is kept in a vessel at pressure 10^(4) Pa maintained at temperature 24^(@)C . If now the pressure is increased to 10^(5) Pa, keeping the temperature constant, then the volume of the becomes:

The manometer has a water column difference of 50 cm . If the atmospheric pressure is 10^(5) Pa, find the pressure of the gas in the container .

Container A holds an ideal gas at a pressure 1 xx10^5 Pa and at 300 K. Container B whose volume is 4 times the volume of A has the same ideal gas at 400 K and at a pressure of 5xx10^5 The valve V is adjusted to allow the pressure to equalize, but the temperature of each container is kept constant at the initial value, then the pressure in the two containers is :