In order to convert heat capacity Cv to molar heat capacity Cv,mol, what information do you...

A perfect gas has a constant volume molar heat capacity of CV ,m  1.5 R...

A perfect gas has a constant volume molar heat capacity of CV ,m  1.5 R and a constant pressure molar heat capacity of Cp,m  2.5 R . For the process of heating 2.80 mol of this gas with a 120 W heater for 65 seconds, calculate a) q, w, T, and U for heating at a constant volume, b) q, w, T, and H for heating at a constant pressure. Note: Square = Delta

#21. (a) What is the molar heat capacity of liquid water? 75.2 J/mol oC (this one...

#21. (a) What is the molar heat capacity of liquid water? 75.2 J/mol oC (this one is correct just need help with B and C) (b) What is the heat capacity of 8.58 mol of liquid water? ___kJ (c) How many kJ of heat are needed to raise the temperature of 3.02 kg of water from 35.9 oC to 74.9 oC? ___kJ

1- The molar mass and molar heat capacity of aluminum is 27.0 g/mol and 24.3 J/(mol...

1- The molar mass and molar heat capacity of aluminum is 27.0 g/mol and 24.3 J/(mol K), respectively. If a 27.0-g Al sample, at 300. K, absorbed 168 J of heat, what is its final temperature? 2- The molar mass and molar heat capacity of aluminum is 27.0 g/mol and 24.3 J/(mol K), respectively. If a 27.0-g Al sample, at 300. K, absorbed 152 J of heat, what is its final temperature? 3- 100. g water, at 20 C, and...

(a) The molar heat capacity of lead is 26.44 J K-1 mol-1. How much energy must...

(a) The molar heat capacity of lead is 26.44 J K-1 mol-1. How much energy must be supplied (by heating) to 100 g of lead to increase it’s temperature by 10.0°C? (b) The molar heat capacity of sodium is 28.24 J K-1 mol-1. What is its specific heat capacity? (c) The specific heat capacity of copper is 0.384 J K-1 g-1. What is its molar heat capacity?

The molar heat capacity for carbon monoxide at constant volume is CV,m = 20.17 J/(K·mol). A...

The molar heat capacity for carbon monoxide at constant volume is CV,m = 20.17 J/(K·mol). A 13.00-L fixed-volume flask contains CO(g) at a pressure of 3.00 kPa and a temperature of 25.0 °C. Assuming that carbon monoxide acts as an ideal gas and that its heat capacity is constant over the given temperature range, calculate the change in entropy for the gas when it is heated to 800.0 °C.

How do you calculate the molar heat capacity of 30 moles of methane

How do you calculate the molar heat capacity of 30 moles of methane

A 2.0 mol sample of ideal gas with molar specific heat Cv = (5/2)R is initially...

A 2.0 mol sample of ideal gas with molar specific heat Cv = (5/2)R is initially at 300 K and 100 kPa pressure. Determine the final temperature and the work done on the gas when 1.6 kJ of heat is added to the gas during each of these separate processes (all starting at same initial temperature and pressure: (a) isothermal (constant temperature) process, (b) isometric (constant volume) process, and (c) isobaric (constant pressure) process. Hint: You’ll need the 1st Law...

You have 1.3 moles of a fictitious ideal gas whose molar specific heat values are Cv...

You have 1.3 moles of a fictitious ideal gas whose molar specific heat values are Cv = 13.43 J/(mol·K) and Cp = 21.74 J/(mol·K). The gas is heated from T = 26.5 °C to T = 120.7 °C at a constant volume of 0.0306 m3 1. How much work is done by the gas? 2. How much thermal energy (heat) flows into the gas? 3. What is the change in the internal energy of the gas?

Iron has a molar heat of about 25 J mol-K. Calculate the beat capacity of a...

Iron has a molar heat of about 25 J mol-K. Calculate the beat capacity of a block of iron whose volume is 1 m. Compare the result with that for the same volume of water. (The relative atomic mass of iron is 55.845 and its density is 7.86 x 10 kg m)

What amount of heat (in kJ) is required to convert 25.2 g of an unknown liquid...

What amount of heat (in kJ) is required to convert 25.2 g of an unknown liquid (MM = 83.21 g/mol) at 19.2 °C to a gas at 93.5 °C? (heat capacity of liquid = 1.58 J/g･°C; heat capacity of gas = 0.932 J/g･°C; ∆Hvap = 22.5 kJ/mol; Tb = 57.3°C) Please answer with the correct significant figures.