Imagine that the gas shown in the simulation is an ideal gas such as helium. Notice that the final number of moles of gas is 1.00 mol for each experimental run. You can find the final volume of the gas using the y axis of the graph shown.
Consider an experimental run at 273 K where the initial number of moles (n1) is actually 1.00 mol, and the final number of moles (n2) is 2.00 mol. Use the simulation to find the volume (V1) of 1.00 mol of helium at 273 K, and calculate the final volume ( V2 ).
Answers: 1
Another question on Chemistry
Chemistry, 21.06.2019 21:00
Consider the nuclear equation below. 239 > x + 4 he 94 2 what is x? 1.235 cm 96 2.243 u 92 3.235 u 92 4.243 cm 96
Answers: 2
Chemistry, 22.06.2019 10:00
A50.0g sample of liquid water at 0.0 c ends up as ice at -20.0 c. how much energy is involved in this change?
Answers: 1
Chemistry, 22.06.2019 11:30
Aperfume bottle is dropped in the corner of a room. the odor of the perfume can be detected on the other side of the room. which statement best describes this observation?
Answers: 2
You know the right answer?
Imagine that the gas shown in the simulation is an ideal gas such as helium. Notice that the final n...
Questions
Mathematics, 11.11.2021 01:00
Mathematics, 11.11.2021 01:00
Mathematics, 11.11.2021 01:10
English, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
English, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
History, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
Social Studies, 11.11.2021 01:10
Mathematics, 11.11.2021 01:10
