A monatomic ideal gas at an initial temperature of 390 K is compressed adiabatically from an initial volume of 120 L to a final volume of 40.0 L. What is the final temperature of the gas?
A monatomic ideal gas at an initial temperature of 390 K is compressed adiabatically from an...
The volume of an ideal gas is adiabatically reduced from 184 L to 87.5 L. The initial pressure and temperature are 1.60 atm and 340 K. The final pressure is 4.53 atm. (a) Is the gas monatomic, diatomic, or polyatomic? (b) What is the final temperature? (c) How many moles are in the gas?
A container at an initial volume of 0.07 m^3 holds 1 mole ot a monatomic ideal gas at an initial temperature of 350 K. It the gas compressed adiabatically to a final volume of 0.0^3 m, then A) what is the final pressure of the gas? B) What is the final temperature of the gas?
A fixed quantity of an ideal monatomic gas of volume 0.074 m3, expands adiabatically. The initial and final temperatures are 24°C and -68°C. What is the final volume of the gas? _____m3
The work done by two moles of a monatomic ideal gas (γ = 5/3) in expanding adiabatically is 920 J. The initial temperature and volume of the gas are 390 K and 0.120 m³. What is the final volume of the gas? [Hint: For an adiabatic process => T1V1γ-1 = T2V2γ-1]
A monatomic gas is adiabatically compressed to 0.125 of its initial volume. Do each of the following quantities change?The rms speed.= _________ The thermal energy of the gas.= _______The molar specific heat at constant volume. = __________ Thanks!!
A 3.35 mol sample of a monatomic ideal gas that is initially at a pressure of 1.40 x 105 Pa and has a volume of 0.0800 m3 is compressed adiabatically to a volume of 0.0400 m3. What is the final temperature of the gas?
A monatomic ideal gas that is initially at a pressure of 1.54 times 10^5 Pa and with a volume of 8.00 times 10^-2 m^3 is compressed adiabatically to a volume of 3.90 times 10^-2 m^3. What is the final pressure? P = ______ Pa How much work is done by the gas during the compression? W = ________ J What is the ratio of the final temperature of the gas to its initial temperature?
The work done by Four moles of a monatomic ideal gas (γ = 5/3) in expanding adiabatically is 870 J. The initial temperature and volume of the gas are 355 K and 0.190 m³. What is the final temperature of the gas.
A monatomic gas is adiabatically compressed to 0.125 of its initial volume. How do each of the following quantities change? a)By what factor does the rms speed change? b)By what factor does the mean free path change? c)By what factor does the thermal energy of the gas change? d)By what factor does the molar specific heat at constant volume change?
Suppose 4.78 moles of a monatomic ideal gas expand adiabatically, and its temperature decreases from 424 to 244 K. Determine (a) the work done (including the algebraic sign) by the gas, and (b) the change in its internal energy.