Engineering Thermodynamics One kilowatt is equal to 100 N-m 1000 N-m/s 1 × 106 N-m/s 1 N-m/s 100 N-m 1000 N-m/s 1 × 106 N-m/s 1 N-m/s ANSWER DOWNLOAD EXAMIANS APP
Engineering Thermodynamics Calorie is a measure of Thermal capacity Entropy Specific heat Quantity of heat Thermal capacity Entropy Specific heat Quantity of heat ANSWER DOWNLOAD EXAMIANS APP
Engineering Thermodynamics The value of one bar (in S. I. units) is equal to 1 × 103 N/m2 1 × 105 N/m2 1 × 104 N/m2 1 × 102 N/m2 1 × 103 N/m2 1 × 105 N/m2 1 × 104 N/m2 1 × 102 N/m2 ANSWER DOWNLOAD EXAMIANS APP
Engineering Thermodynamics The value of the product of molecular weight and the gas characteristic constant for all the gases in M.K.S. unit is 848 kgfm/mol °K 427 kgfm/mol °K 29.27 kgfm/mol °K 8314 kgfm/mol °K 848 kgfm/mol °K 427 kgfm/mol °K 29.27 kgfm/mol °K 8314 kgfm/mol °K ANSWER DOWNLOAD EXAMIANS APP
Engineering Thermodynamics The same volume of all gases would represent their Gas characteristic constants Molecular weights Specific weights Densities Gas characteristic constants Molecular weights Specific weights Densities ANSWER DOWNLOAD EXAMIANS APP
Engineering Thermodynamics Select the wrong statement All of these An Ericsson cycle consists of two constant pressure and two isothermal processes. An Otto cycle consists of two constant volume and two isentropic processes. A Joule cycle consists of two constant volume and two isentropic processes. All of these An Ericsson cycle consists of two constant pressure and two isothermal processes. An Otto cycle consists of two constant volume and two isentropic processes. A Joule cycle consists of two constant volume and two isentropic processes. ANSWER DOWNLOAD EXAMIANS APP
EXAMIANS