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, 22.06.2019 10:30
Acompound has a molar mass of 92.02 grams/mole, and its percent composition is 30.4% nitrogen (n) and 69.6% oxygen (o). what is its molecular formula? a. n2o4 b. no2 c. n2o d. n4o2
Answers: 1
Chemistry, 22.06.2019 15:30
Which of the following are correct values for the ideal gas laws constant r
Answers: 1
Chemistry, 22.06.2019 17:30
Energy defines the different "states" of matter. in no more than 3 sentences, describe the amount of kinetic energy that each of the 3 states of matter possesses and relate that to the atom/molecular motion of each "state".
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
History, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
History, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
English, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Mathematics, 22.06.2019 07:20
Physics, 22.06.2019 07:20
Physics, 22.06.2019 07:20
