Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Heat rejection is lower

Maximum temperature is higher

Combustion is at constant volume

Expansion and compression are isentropic

Heat rejection is lower

Maximum temperature is higher

Combustion is at constant volume

Expansion and compression are isentropic

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics
The efficiency of Carnot cycle is maximum for

Petrol engine

Steam engine

Reversible engine

Gas engine

Petrol engine

Steam engine

Reversible engine

Gas engine

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics
Which of the following is the correct statement of the second law of thermodynamics?

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

All of these

It is impossible to transfer heat from a body at a lower temperature to a higher temperature, without the aid of an external source

There is a definite amount of mechanical energy, which can be obtained from a given quantity of heat energy

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

All of these

It is impossible to transfer heat from a body at a lower temperature to a higher temperature, without the aid of an external source

There is a definite amount of mechanical energy, which can be obtained from a given quantity of heat energy

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics
In an isothermal process

There is no change in enthalpy

There is no change in temperature

There is no change in internal energy

All of the listed here

There is no change in enthalpy

There is no change in temperature

There is no change in internal energy

All of the listed here

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics
According to Regnault's law, the specific heat at constant pressure (cp) and specific heat at constant volume (cv) _________ with the change in pressure and temperature of the gas.

Both (A) and (B)

Change

Do not change

None of these

Both (A) and (B)

Change

Do not change

None of these

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics
The ratio of root mean square velocity to average velocity of gas molecules at a particular temperature is

0.086

1.086

4.086

1.086

0.086

1.086

4.086

1.086

ANSWER DOWNLOAD EXAMIANS APP

Engineering Thermodynamics

Engineering Thermodynamics Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics The efficiency of Carnot cycle is maximum for

Engineering Thermodynamics Which of the following is the correct statement of the second law of thermodynamics?

Engineering Thermodynamics In an isothermal process

Engineering Thermodynamics According to Regnault's law, the specific heat at constant pressure (cp) and specific heat at constant volume (cv) _________ with the change in pressure and temperature of the gas.

Engineering Thermodynamics The ratio of root mean square velocity to average velocity of gas molecules at a particular temperature is

Engineering Thermodynamics
Otto cycle efficiency is higher than Diesel cycle efficiency for the same compression ratio and heat input because in Otto cycle

Engineering Thermodynamics
The efficiency of Carnot cycle is maximum for

Engineering Thermodynamics
Which of the following is the correct statement of the second law of thermodynamics?

Engineering Thermodynamics
In an isothermal process

Engineering Thermodynamics
According to Regnault's law, the specific heat at constant pressure (cp) and specific heat at constant volume (cv) _________ with the change in pressure and temperature of the gas.

Engineering Thermodynamics
The ratio of root mean square velocity to average velocity of gas molecules at a particular temperature is