k How much thermal energy must be added to 7:10 moles of a diatomic ideal gas...

Question

Question

How much thermal energy must be added to 7:10 moles of a diatomic ideal gas to raise its temperature 22.1 K? A) 32603 B) 1960 k

Answer 1

Answer #1

Answer 2

Similar Homework Help Questions

How much thermal energy is transferred to the system

A diatomic ideal gas expands from a volume of \(v_{A=100 m^{3}}\) to \(v_{B=300 m^{3}}\) along the path shown in the figure below. The initial pressure is \(_{P_{A}=200 x+10^{5} p_{2}}\) and there are \(73.4\) mol of gas.(a) Calculate the work done on the gas during this process.(b) Calculate the change in temperature of the gas.(c) Calculate the change in internal energy of the gas. (Take the molar specific heat of a diatomic gas for this process to be \(C_{p}=\frac{7}{2} R\)(d) How...
7. A 0.2 moles of diatomic gas are contained in a cylinder at 300 K and atmospheric pressure 1*10...

7. A 0.2 moles of diatomic gas are contained in a cylinder at 300 K and atmospheric pressure 1*10^5 Pa. The gas receives 1000 J of heat in an ideal adiabatic transformation. Calculate the change of internal energy, the work done on the gas and the final volume and temperature of the gas.
1) A 3.00-mol sample of an ideal diatomic gas in which the gas particles both translate...

1) A 3.00-mol sample of an ideal diatomic gas in which the gas particles both translate and rotate is initially at 600 K. Energy is then added thermally to the sample until its temperature is 1000 K. Assume that at the temperatures higher than 1000 K, the particles also vibrate, at the temperatures lower than 1000 K, the particles do not vibrate. The sample is then heated to 1200 K. Part A:- How much thermal energy does the sample absorb?...

Assume air can be modeled as an ideal, diatomic gas. Given n moles of air at...

Assume air can be modeled as an ideal, diatomic gas. Given n moles of air at temperature T0 and pressure p0, how much energy must be expended as work to compress it to one tenth of its original volume, if a) the compression occurs along an isotherm? b) the compression occurs along a reversible adiabatic path? c) Evaluate your results to parts (a) and (b) for n = 5.00 mol, T0 = 20.0 ◦C, and p0 = 1.00 atm. Express...
We have a diatomic ideal gas with a y of 5/2. It starts with an initial...

We have a diatomic ideal gas with a y of 5/2. It starts with an initial pressure of 1kPa, an initial temperature of 100 K, and an initial volume of 10 m^3 a) The gas undergoes an adiabatic compression, halving its volume. What is its new pressure? b) What was the work done? c) What was the heat flow? d) Now, keeping pressure constant, heat is put into the gas, doubling the volume. How much heat is added? e) What...
A 7.00 L container with solid walls contains 3.50 moles of an ideal gas at a...

A 7.00 L container with solid walls contains 3.50 moles of an ideal gas at a pressure of 1.60 x 106 Pa. (a) What is the average kinetic energy of the gas molecules in the container. (b) If the gas is nitrogen (N2), what is the rms speed of each gas molecule? (c) How much heat must be added to raise the temperature of the gas by 100 K? NB. The atomic mass of nitrogen is 14.0067 g/mol. True False

Under constant-volume conditions, 3100 J of heat is added to 1.9 moles of an ideal gas....

Under constant-volume conditions, 3100 J of heat is added to 1.9 moles of an ideal gas. As a result, the temperature of the gas increases by 78.5 K. How much heat would be required to cause the same temperature change under constant-pressure conditions? Do not assume anything about whether the gas is monatomic, diatomic, etc.
Under constant-volume conditions, 4100 J of heat is added to 1.5 moles of an ideal gas....

Under constant-volume conditions, 4100 J of heat is added to 1.5 moles of an ideal gas. As a result, the temperature of the gas increases by 132 K. How much heat would be required to cause the same temperature change under constant-pressure conditions? Do not assume anything about whether the gas is monatomic, diatomic, etc.
an ideal gas at 0°C consists of 1.0×10^23 atoms. 18 J of thermal energy are added...

an ideal gas at 0°C consists of 1.0×10^23 atoms. 18 J of thermal energy are added to the gas. What is the new temperature in degrees Celsius?

A diatomic ideal gas expands from a volume of VA-1.00 mºto V, - 3.00 m along...

A diatomic ideal gas expands from a volume of VA-1.00 mºto V, - 3.00 m along the path shown in the figure below. The initial pressure is PA-2.00 x 10 Pa and there are 67.3 mol of gas. P(10%Pa) 4.00 8.00 2.00 1.00 1.00 2.00 3.00 100V (m) (a) Calculate the work done on the gas during this process. (b) Calculate the change in temperature of the gas. (c) Calculate the change in internal energy of the gas. (Take the...