Let `T_a and T_b` be the final temperatures of the samples A and B respectively in the previous question.

two samples 1 and 2 are initially kept in the same state. the sample 1 is expanded through an isothermal process where as sample 2 through an adiabatic process up to the same final volume.Let p_(1) and p_(2) be the final pressure of the samples and 2 respectively in the previous question then.

The value of C_(p) - C_(v) is 1.09R for a gas sample in state A and is 1.00R in state B . Let T_(A),T_(B) denote the temperature and p_(A) and p_(B) denote the pressure of the states A and B respectively. Then

Let A and B be two nonsingular square matrices, A^(T) and B^(T) are the tranpose matrices of A and B, respectively, then which of the following are coorect ?

Two gases A and B having same pressure P, volume V , and Temperature T are mixed . If mixture has volume and temperature as V ans T respectively. Then pressure of mixture is :

Two carnot engines A and B are operated in series . The engine A receives heat from the source at temperature T_1 and rejects the heat to the sink at temperature T .The second engine B receives the heat at temperature T and rejects to its sink at temperature T_2 . For what value of T the efficiences of the two engines are equal?

Let Aa n dB be two nonsinular square matrices, A^T a n dB^T are the transpose matrices of Aa n dB , respectively, then which of the following are correct? B^T A B is symmetric matrix if A is symmetric B^T A B is symmetric matrix if B is symmetric B^T A B is skew-symmetric matrix for every matrix A B^T A B is skew-symmetric matrix if A is skew-symmetric

Four identical rods AB, CD, CF and DE are joined as shown in figure. The length, cross-sectional area and thermal conductivity of each rod are l, A and K respectively. The ends A, E and F are maintained at temperature T_(1) , T_(2) and T_(3) respectively. Assuming no loss of heat to the atmosphere, find the temperature at B.

The amount of charge passed in time t through a cross-section of a wire is Q(t)=At^(2)+Bt+C. (a)Write the dimensional formulae for A,B and C. (b) If the numerical values of A,B,and C are 5,3 and 1 respectively in SI units,find the value of the current at t=5 s.