2.00 mol of helium and 1.00 mol of argon are separatedby a very thin barrier. Initially the helium has 7500 J ofthermal energy. The helium gains 2500 J of energy as thegases interact and come to thermal equilibrium byexchanging energy via collisions at the boundary. Whatwas the initial temperature of the argon?First, what is the equilibrium temperature of the two gases?Express your answer in kelvins.► View Available Hint(s)Tf =SubmitPart BVE ΑΣΦhelpWhat is the thermal energy of the argon at the equilibrium temperature?Express your answer with the appropriate units.

Answered: Image /qna-images/answer/f616e9ea-2cbf-4962-a56c-e0a43bbed6ea.jpg

of helium and 1.00 mol of argon are separated min barrier. Initially the helium has 7500 J of ergy. The helium gains 2500 J of energy as the act and come to thermal equilibrium by energy via collisions at the boundary. What tial temperature of the argon? First, what is the equilibrium temperature of the two gases? Express your answer in kelvins. ► View Available Hint(s) Tf= Submit Part B OF VGI ΑΣΦ ? help K What is the thermal energy of the argon at the equilibrium temperature?

of helium and 1.00 mol of argon are separated min barrier. Initially the helium has 7500 J of ergy. The helium gains 2500 J of energy as the act and come to thermal equilibrium by energy via collisions at the boundary. What tial temperature of the argon? First, what is the equilibrium temperature of the two gases? Express your answer in kelvins. ► View Available Hint(s) Tf= Submit Part B OF VGI ΑΣΦ ? help K What is the thermal energy of the argon at the equilibrium temperature?

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter31: Radioactivity And Nuclear Physics

Section: Chapter Questions

Problem 3PE: (a) Repeat Exercise 31.2, and convert the energy to joules or calories. (b) If all of this energy is...

See similar textbooks

Similar questions

Unreasonable results. (a) Find the temperature of 0.360 kg of water, modeled as an ideal gas, at a pressure of 1.01105 Pa if it has a volume of 0.615 m3. (b) What is unreasonable about this answer? How could you get a better answer?
(a) Repeat Exercise 31.2, and convert the energy to joules or calories. (b) If all of this energy is converted to thermal energy in the gas, what is its temperature increase, assuming 50.0 cm3 of ideal gas at 0.250atm pressure? (The small answer is consistent with the fact that the energy is large on a quantum mechanical scale but small on a macroscopic scale.)
I need the answer as soon as possible
Figure I shows the P-V graph for a sample of a gas at 298 K. If this sample were heated to 312 K, this would be represented by a point 25. atm Figure 1 100 V/e 50 A At the top, left end of the line Off the line, above and to the right of it. B At the lower, right end of the line D Off the line, below and to the right of it.
plz be correct
2.00 mol of helium and 1.00 mol of argon are separated by a very thin barrier. Initially the helium has 7500 J of thermal energy. The helium gains 2500 J of energy as the gases interact and come to thermal equilibrium by exchanging energy via collisions at the boundary. What was the initial temperature of the argon? Part A First, what is the equilibrium temperature of the two gases? Express your answer in kelvins. ► View Available Hint(s) T₁ = Submit ΓΙ ΑΣΦΑ Previous Answers ? K
2.00 mol of helium and 1.00 mol of argon are separated by a very thin barrier. Initially the helium has 7500 J of thermal energy. The helium gains 2500 J of energy as the gases interact and come to thermal equilibrium by exchanging energy via collisions at the boundary. What was the initial temperature of the argon? Part A First, what is the equilibrium temperature of the two gases? Express your answer in kelvins. ► View Available Hint(s) Tf = Submit Part B ΑΣΦ (Eth f) Ar = What is the thermal energy of the argon at the equilibrium temperature? Express your answer with the appropriate units. ► View Available Hint(s) PºμÅ Value ? Units K []?
How many triple points are there on the graph
The PV dlagram bolow shows four different states, A, 8, C, and D. The lincs connecting the states represent processes or transitions. For cxample, the linc connocting statesA and B represent: an exponsion of the gas (transition to larger volume) while the preszure is kept constant. In the cass of this diagram, the pressure at states A and B is 3.02x105 Pa. The pressure at states C and D 1.15x10 ro. Likewise the volume st statcs A and Dis 2.00x 10 mane the volumc at state: B and Cis 1.2510 m. what type of process is the transition from state e to C (transition BC)? Incorrect adisbato Incorract isobaric Incorrect lsothermal Correct: isochoric You are cnrrect. Vour recept no, is 165-682 4 PTHK TN what type of process is the transition from state C to D (traaition CU)? Tnrarrect adiasatic Incorrect isgchoric Correct: isobarie You are correct. Previnus Ties Your rece pt no, Is 165-6737 What is the work done by the gas tor the transition BC? SubmtArower Tries 0/10 What is the woark done by…
Solve the common pressure and temperature assuming no heat loss in the containers and the surrounding of the two containers A and B that hold an ideal gas at pressure PA and PB, and absolute temperature TA and TB respectively. The containers are connected by a thin tube (and a close valve). The valve is opened to allow the pressures and temperatures to equalize.
Problem 1: In statistical mechanics, the internal energy of an ideal gas is given by: N. aNkB 2/3 (3NKB U = U(S,V) = е where a is a constant. 1- Show that the variation of the internal energy is given by: 2 dS - \3V 2 dU = dV \3NkB 2- Using the fundamental relation of thermodynamic dU = T.ds – p. dV, show that the equation of state PV = nRT follows from the first expression of U.
College Physics Question