Bb Pearson's MyLab & Mastering -E MasteringPhysics: hw 1.4P Pearson+P 18.3: Kinetic-Molecular Model of xMy Questions | bartleby+A session.masteringphysics.com/myct/itemView?assignmentProblemID=166770672

Answered: Image /qna-images/answer/f94b726a-3bcf-404b-95cd-ba3bb9b844f2.jpg

Cacuiate the total Q and total for this path. A quantity of 5.00 mol of a monatomic ideal gas has an initial pressure of p.=1.00 x 10° Pa and an initial volume of V - 0.0200 m. Two paths are used to take the gas to a final state for which p- 1.80 x 10 Pa and V,- 0.0280 m Express your answer in joules. Enter your answers numerically separated by a comma. Q1. W, Submit Previous Answers Request Answer X Incorrect; Try Again; 2 attempts remaining • Part B Along path 2 the volume is increased to 0.0280 m while the pressure remains 1.00 x 10° Pa and then the pressure is increased to 1.80 x 10* Pa while the volume remains constant at 0.0280 m. Cakculate the total Q and total W for this path Express your answer in joules. Enter your answers numerically separated by a comma. ? Q2. Wa J Submit Request Answer Part C Calculate the quantity Q- W for each path. Express your answer in joules. Enter your answers numerically separated by a comma. Q - W, Q - Wa = Request Answer

Cacuiate the total Q and total for this path. A quantity of 5.00 mol of a monatomic ideal gas has an initial pressure of p.=1.00 x 10° Pa and an initial volume of V - 0.0200 m. Two paths are used to take the gas to a final state for which p- 1.80 x 10 Pa and V,- 0.0280 m Express your answer in joules. Enter your answers numerically separated by a comma. Q1. W, Submit Previous Answers Request Answer X Incorrect; Try Again; 2 attempts remaining • Part B Along path 2 the volume is increased to 0.0280 m while the pressure remains 1.00 x 10° Pa and then the pressure is increased to 1.80 x 10* Pa while the volume remains constant at 0.0280 m. Cakculate the total Q and total W for this path Express your answer in joules. Enter your answers numerically separated by a comma. ? Q2. Wa J Submit Request Answer Part C Calculate the quantity Q- W for each path. Express your answer in joules. Enter your answers numerically separated by a comma. Q - W, Q - Wa = Request Answer

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

State the units in which the characteristic gas constant R is usually expressed 3. and explain why it has not the same value for all gases. In an experiment to determine specific heat capacity of the air at constant pressure, 50 g of air at constant pressure were heated from 14°C to 74 °C during the period 300 seconds by continuous electric heating method. The average value of the power used by heater was 10.04 Watts. Use the information to find the value of the specific heat capacity of air at constant pressure. Hence find a- the value of the characteristic gas constant R b-the density of the air at 0°C and 0.1 MPa. y =1.4
An ideal gas, at pressure 4.9 atmospheres, in a volume 1.1 m3 and at a temperature of 308 K, is compressed into a lower volume 0.44 m3, at a pressure of 6.26 atmospheres. What is the new temperature, in K with two digits of precision?
A small electric immersion heater is used to heat 91 g of water for a cup of instant coffee. The heater is labeled "54 watts" (it converts electrical energy to thermal energy at this rate). Calculate the time required to bring all this water from 24°C to 100°C, ignoring any heat losses. (The specific heat of water is 4186 J/kg-K.) Number i Units Save for Later Attempts: 0 of 3 used Submit Answer
2. We have derived the following equation for the rate of heating of the atmosphere. Only the first term on the right was explained. After reviewing the basics of thermodynamics, you are in a position to explain the second term. Show the steps for deriving the last term in the equation. Speculate why it of interest to change from dependence in z to dependence on p? dT 1 dF 8 dF not net dt C,p dz C, dp
Kindly check the answer in picture containing the question before submitting the solution the solution.
The heat engine shown in the figure uses 2.0 mol of a monatomic gas as the working substance. (Figure 1) Figure p (kPa) 600 400 200 0 0 0.025 0.050 < 1 of 1 V (m³) Part D Determine AEth, Ws, and Q for 3→1. Enter your answers numerically separated by commas. Express your answer using two significant figures. VE ΑΣΦ AEth, Ws, Q = Submit Part E Request Answer What is the engine's thermal efficiency? Express your answer using two significant figures. ? J
Homework 4, Problem 3 Part (a) For n = 1 moles, T = 305 K, and V2 = 3.5V1, determine the work done by the gas on the external body. The gas constant is R = 8.314 J K-1 mol-1. W = ______
Look at the P-V diagram below (Diagram 1). Calculate the work done by the gas for the paths A, B and C. Assume that in Diagram 1, P1 = 1 atm, P2 = 4 atm, V1 = 5 L, V2 = 15 L. a) WA = 1013 J, WB = 0, WC = -2533 J b) WA = 0.01 J, WB = 0, WC = -0.025 J c) WA = 2533 J, WB = 0, WC = -1013 J Calculate the work done by the gas for the path AB in Diagram 2. Use the data: P1 = 1 atm, P2 = 4 atm, V1 = 5 L, V2 = 20 L. (Path AB is an "isothermal" which means the temperature T is constant on this path). a) 0.012 J b) 1220 J c) 0.0278 J d) 2809 J
Please show complete (not shortcut) solution with derivation of formulas. The absolute pressure of an ideal gas changes from 100kPa to 952 kPawhile maintaining constant temperature. If the initial volume is 100L.What is the final volume in galloon?
A process at constant pressure pressure takes n mole rigid diatomic from an initial temperature T to a final temperature 3T. Calculate the change in enthalpy, AH. Select one: O a. AU = 5n RT O b. Ο c. O d. AH = 9n RT ΔΗ = 11nRT AH = 7nRT
Don't provide handwritten solution.
The enthalpy of 36 g of water vapor increases by 1830 J when its temperature increases from 150C to 175C. Assume that water vapor is an ideal gas. 1. What is the molar specific heat at constant pressure in SI units for water vapor? 2. By how much did the water vapor’s thermal energy increase? Express your answer with the appropriate units.