1. Option e is incorrect because for polyatomic gas it specific heat also depends on molecular mass.
So option e.
2. Vaporizing at 120 degree celcius..
Option C.
For Parts 1 and 2, answer the following multiple choice questions, showing all work to prove...
I need help with part 2, thanks! Problem 4 (1) Use first law to directly prove that work done by an ideal gas during an adiabatic process is CV (Ti -Tf), where T1 and Tf are the initial and final temperatures of the system. (2) Show that the heat transferred to an ideal gas system during an infinitesimal reversible process can be written as where c and ?,, are specific heat capacities under constant volume and pressure, respectively. Use this...
The amount of heat needed to raise the temperature of 1 mole of a substance by one Celsius degree (or, equivalently, one kelvin) is called the molar heat capacity of the system, denoted by the letter C. If a small amount of heat dQ is put into n moles of a substance, and the resulting change in temperature for the system is dT, then C=1ndQdT. This is the definition of molar heat capacity--the amount of heat Q added per infinitesimal...
1)(Hint: Cp=1.005 kJ/kg-K, Cv=0.718 kJ/kg-K, R=0.287 kJ/kg-K). An air-tight room contains 80 kg of air, and a 2-kW baseboard electric resistance heater in the room is turned on and kept on for 15 min. The temperature rise of air at the end of 15 min is 2)An example of when it is appropriate to model a substance as an ideal gas is when a. The pressure and temperature are close to the critcal point b. The pressure and temperature are...
Ch 19 HW Relationships between Molar Heat Capacities 9 of 23 Constants The amount of heat needed to raise the temperature of 1 mole of a substance by one Celsius degree (or, equivalently, one kelvin) is called the molar heat capacity of the system, denoted by the letter C. If a small amount of heat dQ is put into n moles of a substance, and the resulting change in temperature for the system is dT, then Part A Consider an...
Part 1- Multiple Choice (30 points) solids and/or hydrogen bonds forces, London dispersion forces, a. Metallic d. Molecular network c. Metallic and covalent-network 2. A student dilutes 50.0 mL of a 0.10 mon solution of HC? to 0.010 mon by adding water, which statement is true? . The total amount of solute remains the same. b. The volume of the solution remains the same C. The total amount of solute decreases.The volume of the solvent remalins the same d. The...
- Question 1 (a) In an ideal gas mixture, the partial pressure of a constituent gas is: 25 points inversely proportional to the mole fraction inversely proportional to the square of the mole fraction equal to the mole fraction directly proportional to the mole fraction (b) The value of the universal molar gas constant is: 8.3145 J/(kmol) 8.3145 kJ/(kg) 8.3145 J/(kg) 8314.5 J/(kmol K) (c) A mixture of ideal gases consists of 4.42 kg of carbon monoxide (CO) and 5.91...
2. In the first week of class, we encountered the following formula: where c is the specific heat of the substance. Now that we know a little more, we may see that the formula is ambiguous, since no particular process by which the temperature increases is specified. Let us explore this point a bit more carefully. a) Assum curves ("isotherms"). After determining which isotherm represents the lower temperature, label the colder isotherm temperature Ti and the warmer one T2. Thus,...
PLEASE SOLVE ALL QUESTIONS ( EMPHASIZE ON D + E ) PLEASE ( CLEAR HANDWRITING) Question 2 (each part is worth 5 marks) Data for oxygen gas (02): relative molecular mass: 32.0 molar specific heat at constant pressure: 29.1 J nol-1K-1 molar specific heat at constant volume: 20.8 J mol-1K-1 Assume all gases are ideal (a) 100 mol of a gas (not oxygen) is initially at temperature -20°C. The gas undergoes isobaric expansion, such that the final temperature is +300C....
1. Definitions. Fill in the blank with the LETTER of the most appropriate term from the following: A. Charles' Law B. neutralization C. heat of fusion D. Dalton's Law E. heat of vaporization F. heat capacity (specific heat) G. evaporation H. condensation I. melting J. Boyle's Law K. ideal gas law L. pressure M.PH N. Arrhenius acid S. Arrhenius base T. kinetic molecular theory states that pressure and volume are inversely proportional states that volume and absolute temperature are directly...
2. A vessel with a piston cylinder attached to a spring (see Figure 1) contains CO2 with a volume of 500 L, a pressure of 200 kPa and a temperature of 25degree C (State 1). heat is transferred to the vessel and it starts to expand until the piston just touches the stops. The pressure at this state is 400 kPa and the temperature is 500 degree C (State 2). More heat is added to the vessel until the pressure...