n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process

Sahay Sir > Question Answers > n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process
The temperature of an open room of volume 30 m^3 increases from 17°C to 27°C due to the sunshine. The atmospheric pressure in the room remains 1 x 10^5 Pa. If ni and nf are the number of molecules in the room before and after heating then nf – ni will be
11
Sep
The temperature of an open room of volume 30 m^3 increases from 17°C to 27°C due to the sunshine. The atmospheric pressure in the room remains 1 x 10^5 Pa. If ni and nf are the number of molecules in the room before and after heating then nf – ni will be n moles of [...]
Posted in: Chapter 9 - Kinetic Theory of Gases , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process , to the heat supplied is : ,
A vertical closed cylinder is separated into two parts by a frictionless piston of mass m and of negligible thickness. The piston is free to move along the length of the cylinder. The length of the cylinder above the piston is l1, and that below the piston is l2, such that l1 > l2. Each part of the cylinder contains n moles of an ideal gas at equal temperature T. If the piston is stationary, its mass, m, will be given by : (R is universal gas constant and g is the acceleration due to gravity)
11
Sep
A vertical closed cylinder is separated into two parts by a frictionless piston of mass m and of negligible thickness. The piston is free to move along the length of the cylinder. The length of the cylinder above the piston is l1, and that below the piston is l2, such that l1 > l2. Each [...]
Posted in: Chapter 9 - Kinetic Theory of Gases , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process , to the heat supplied is : ,
One mole of ideal gas passes through a process where pressure and volume obey the relation p = p0[1-1/2(V0/V)^2]. Here P0 and V0 are constants. Calculate the change in the temperature of the gas if its volume changes form V0 to 2V0
11
Sep
One mole of ideal gas passes through a process where pressure and volume obey the relation p = p0[1-1/2(V0/V)^2]. Here P0 and V0 are constants. Calculate the change in the temperature of the gas if its volume changes form V0 to 2V0 n moles of an ideal gas with constant volume heat capacity CV undergo [...]
Posted in: Chapter 9 - Kinetic Theory of Gases , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process , to the heat supplied is : ,
n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process, to the heat supplied is :
11
Sep
n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process, to the heat supplied is : n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio [...]
Posted in: Chapter 9 - Kinetic Theory of Gases , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: n moles of an ideal gas with constant volume heat capacity CV undergo an isobaric expansion by certain volume. The ratio of the work done in the process , to the heat supplied is : ,