[" An adiabatic process occurs at constant "],[qquad [" [MNR "1985" ; AFMC "1996" ; AllMS "1999" ; "],[" UPSEAT "1999,2000;Pb" .PET "2004]]],[" (a) Temperature "],[" (b) Pressure "],[" (c) Heat "],[" (d) Temperature and pressure "]

One mole of a monatomic ideal gas is taken through the cycle shown in the figure: A to B adiabatic expansion B to C: cooling at constant volume C to D adiabatic compression D to C: heating at constant volume. The pressure and temperature at P_A, P_B etc. T_A , T_B etc. are denoted etc. respectively. Given that T_A = 1000 K, P_B =(2 //3)P_A and P_C = (t //3)P_A Calculate the following quantities. The heat lost by the gas in process B to C (in J)

One mole of a monatomic ideal gas is taken through the cycle shown in the figure: A to B adiabatic expansion B to C: cooling at constant volume C to D adiabatic compression D to C: heating at constant volume. The pressure and temperature at P_A, P_B etc. T_A , T_B etc. are denoted etc. respectively. Given that T_A = 1000 K, P_B =(2 //3)P_A and P_C = (1 //3)P_A Calculate the following quantities. The work done by the gas in process A to B (in J)

One mole of a monatomic ideal gas is taken through the cycle shown in the figure: A to B adiabatic expansion B to C: cooling at constant volume C to D adiabatic compression D to C: heating at constant volume. The pressure and temperature at P_A, P_B etc. T_A , T_B etc. are denoted etc. respectively. Given that T_A = 1000 K, P_B =(2 //3)P_A and P_C = (t //3)P_A Calculate the following quantities. The heat lost by the gas in process B to C (in J)

One mole of a monatomic ideal gas is taken through the cycle shown in the figure: A to B adiabatic expansion B to C: cooling at constant volume C to D adiabatic compression D to C: heating at constant volume. The pressure and temperature at P_A, P_B etc. T_A , T_B etc. are denoted etc. respectively. Given that T_A = 1000 K, P_B =(2 //3)P_A and P_C = (1 //3)P_A Calculate the following quantities. The work done by the gas in process A to B (in J)

The following data gives the number (in thousands) of applicants registered with an Employment Exchange during, 1995-2000: year, 1995, 1996, 1997, 1998, 1999, 2000 No. of application (Registered (in Thousand), 18, 20, 24, 28, 30, 34 Construct a bar graph to represent the above data.

The following data gives the number (in thousands) of applicants registered with an Employment Exchange during, 1995-2000: year, 1995, 1996, 1997, 1998, 1999, 2000 No. of application (Registered (in Thousand), 18, 20, 24, 28, 30, 34 Construct a bar graph to represent the above data.

The following data gives the production of foodgrains (in thousand tonnes) for some years: Year , 1995, 1996, 1997, 1998, 1999, 2000 Production (in Thousand tonnes), 120, 150, 140, 180, 170, 190 Represent the above data with the help of a bar graph.

The following line-graph gives the annual profit percent earned by a Company during the period 1995-2000. Study the line-graph and answer the questions that are based on it. Profit Percent Earned by a Company Over the Years % " Profit " = (" Income -Expenditure ")/(" Expenditure ") xx 100 If the expenditure in 1996 and 1999 are equal, then the ratio of the incomes in 1996 to the 1999, is m: n. Find m + n.

One mole of a monoatomic ideal gas is taken through the cycle shown in figure The pressure and temperature at A, B etc are denoted by P_A,P_B - , T_A, T_B - , etc respectively A to B adiabatic expansion B to C cooling at constant volume C to D adiabatic compression D to A heating at constant volume Given that : T_A =1000 K, P_B=2/3P_A and P_C=1/3P_A the heat lost by the gas in process B to C