A system consisting of an ideal gas at the constant pressure of 120 kPa gains 980...
A system consisting of an ideal gas at the constant pressure of 120 kPa gains 980 J of heat.
1.) Find the change in volume of the system if the internal energy of the gas increases by 920 J.
Express your answer using two significant figures.
2.) Find the change in volume of the system if the internal energy of the gas increases by 360 J.
Express your answer using two significant figures.
Homework Answers
![Heat =980 I Internal enegy =920T Work done = 4Q-AU aw = 980 3-9203 oW = 60] - por=600 OV = 603 २०५ Pau AV = x103 20.54103 7 л](http://img.homeworklib.com/questions/fdf2dd90-3146-11ea-a38b-c7afe8f164a4.png?x-oss-process=image/resize,w_560)
Add Answer to:
A system consisting of an ideal gas at the constant pressure of 120 kPa gains 980...
With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3. Review PartA With the pressure held constant at 230 k...
With the pressure held constant at 230 kPa, 44 mol of a
monatomic ideal gas expands from an initial volume of 0.80 m3 to a
final volume of 1.9 m3.
Review PartA With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3 How much work was done by the gas during the expansion? Express your answer using two significant figures....
A 19.0- L volume of an ideal gas in a cylinder with a piston is at...
A 19.0- L volume of an ideal gas in a cylinder with a piston is at a pressure of 3.2 atm . Enough weight is suddenly removed from the piston to lower the external pressure to 1.6 atm . The gas then expands at constant temperature until its pressure is 1.6 atm . The change in the internal energy of a system, ΔE , for an isothermal expansion of an ideal gas is 0. Use this information in your calculations...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 144 kPa. During the process there is 304.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,1 = 202 J. (a) Find the Work done on the gas during this process. J (b) By how much does the volume change? Please enter your answer as a...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State...
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 129 kPa. During the process there is 294.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,232 J. (a) Find the Work done on the gas during this process (b) By how much does the volume change? Please enter your answer as a posi (c) The...
A system gains 3240 J of heat at a constant pressure of 1.33 × 105 Pa,...
A system gains 3240 J of heat at a constant pressure of 1.33 × 105 Pa, and its internal energy increases by 3990 J. What is the change in the volume of the system, and is it an increase or a decrease?
A system gains 2760 J of heat at a constant pressure of 1.40 × 105 Pa,...
A system gains 2760 J of heat at a constant pressure of 1.40 × 105 Pa, and its internal energy increases by 4060 J. What is the change in the volume of the system, and is it an increase or a decrease?
A system gains 3330 J of heat at a constant pressure of 1.46 × 105 Pa,...
A system gains 3330 J of heat at a constant pressure of 1.46 × 105 Pa, and its internal energy increases by 4190 J. What is the change in the volume of the system, and is it an increase or a decrease? ΔV =
A cylinder of nitrogon gas has a volume of 1.7x104 cm3 and a pressure of 120...
A cylinder of nitrogon gas has a volume of 1.7x104 cm3 and a pressure of 120 atm Part A What is the thermal energy of this gas at room temperature (20° C)? Express your answer to two significant figures and include the appropriate units. E5.2x105 J Previous Answers Correct Part B What is the mean free path in the gas? Express your answer to two significant figures and include the appropriate units. λ= 1 Value Units Submit Request Answer Part...
13. A diatomic ideal gas is at a pressure of 5 kPa and a volume of...
13. A diatomic ideal gas is at a pressure of 5 kPa and a volume of 4 m3. What is the change in internal energy of the gas when it doubles in volume adiabatically?
An ideal gas initially at 265 K undergoes an isobaric expansion at 2.50 kPa. The volume...
An ideal gas initially at 265 K undergoes an isobaric expansion at 2.50 kPa. The volume increases from 1.00 m3 to 3.00 m3 and 12.6 kJ is transferred to the gas by heat. (a) What is the change in internal energy of the gas? (b) What is the final temperature of the gas?
With the pressure held constant at 230 kPa, 44 mol of a
monatomic ideal gas expands from an initial volume of 0.80 m3 to a
final volume of 1.9 m3.
Review PartA With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3 How much work was done by the gas during the expansion? Express your answer using two significant figures....
An ideal gas undergoes a constant pressure process that takes it from State 1 to State 2. The pressure of the gas is 129 kPa. During the process there is 294.0 J of heat transfer to the gas and the thermal energy of the gas increases so that Eth,2 - Eth,232 J. (a) Find the Work done on the gas during this process (b) By how much does the volume change? Please enter your answer as a posi (c) The...
A cylinder of nitrogon gas has a volume of 1.7x104 cm3 and a pressure of 120 atm Part A What is the thermal energy of this gas at room temperature (20° C)? Express your answer to two significant figures and include the appropriate units. E5.2x105 J Previous Answers Correct Part B What is the mean free path in the gas? Express your answer to two significant figures and include the appropriate units. λ= 1 Value Units Submit Request Answer Part...
13. A diatomic ideal gas is at a pressure of 5 kPa and a volume of 4 m3. What is the change in internal energy of the gas when it doubles in volume adiabatically?
An ideal gas initially at 265 K undergoes an isobaric expansion at 2.50 kPa. The volume increases from 1.00 m3 to 3.00 m3 and 12.6 kJ is transferred to the gas by heat. (a) What is the change in internal energy of the gas? (b) What is the final temperature of the gas?
Most questions answered within 3 hours.
-
Calculate the change in the Gibbs energy of the system for the
following processes: a) 6.0...
asked 2 minutes ago -
A solution is prepared by dissolving 11.60 g of a mixture of
sodium carbonate and sodium...
asked 11 minutes ago -
1. Mini Case Study: Suppose that, in the future, most jobs will
be bid upon by...
asked 14 minutes ago -
After reading the Primary Care scenario in the Allied Health
Community, what could have been implemented...
asked 7 minutes ago -
Plantinga argues for the view that there is no solution to the
problem of moral evil....
asked 9 minutes ago -
For this Discussion, you examine a case study of
hearing-impaired children who developed their own language...
asked 14 minutes ago -
At the beginning of the year, Palermo Brothers, Inc., purchased
a new plastic water bottle making...
asked 12 minutes ago -
You could argue that even though Rockefeller clearly had
enormous market power (90% of the market)...
asked 13 minutes ago -
The moment of inertia of a disk rotating about its axis of
symmetry is Icm=1/2MR^2
The...
asked 21 minutes ago -
When using a relational database what makes data
formatting so important and critical to the functions...
asked 32 minutes ago -
The following temperatures show the (fictional) daily low
measured at O'Hare airport every January 1st from...
asked 52 minutes ago -
Your friend is interested in the characteristics of fast tree
planters. He searched through the records...
asked 59 minutes ago