Statement-1: The de-Broglie wavelength of a molecules (in a sample of ideal gas ) varies inversely as the square root of absolute temperature
The arm velocity of a molecules (in a sample of ideal gas ) depend in temperature.

Statement-1: The de-Broglie wavelength of a molecules (in a sample of ideal gas ) varies inversely as the square root of absolute temperature Statement 2:The rms velocity of a molecules (in a sample of ideal gas ) depend in temperature.

The average velocity of gas molecules in a sample of a gas

Statement I: The de Broglie wavelength of a molecule (in a sample of ideal gas) varies inversely as the square root of absolute temperature. Statement II: The de Broglie wavelength of a molecule (in sample of ideal gas) depends on temperature.

Some questions (Assertion-Reason Type) are given below. Each question contains Statement I (Assertion) and statement II(reason). Each question has 4 choices (a),(b),(c ) and (d) out of which only one is correct. So select the correct choise. a. Statement I is True, Statement II is True,Statement II is a correct explanation for Statement I b. Statement I is True, Statement II is True, Statement II is NOT a correct ecplanation for Statement I c. Statement I is True, Statement II is False . d. Statement I is false, Statement II is True. 3. Statement I: The de Broglie wavelength of a molecule (in a sample of ideal gas) varies inversely as the square root of absolute temperature. Statement II: The de Broglie wavelength of a molecule (in sample of ideal gas) depends on temperature.

The average momentum of a molecule in a sample of an ideal gas depends on

The average momentum of a molecule in a sample of an ideal gas depends on

Assertion : The de - Broglie wavelength of a molecule varies inversely as the square root of temperature. Reason : The root mean square velocity of the molecule depends on the temperature.

The absolute temperature of an ideal gas