By gas law
PV = nRT
When, Volume (V) and number of moles (n) is constant
R is universal gas constant , hence
P T.
P is pressure and T is absolute temperature.
So, pressure is directly proportional to absolute temperature.
Therefore, when absolute temperature triples (increase by a factor of three) while the number of moles of gas and the volume are held constant
The Pressure will triple (increase by a factor of three) .
Question 6 (1 point) What will happen to the pressure of a gas if its absolute...
1. A particular gas exerts a pressure of 689 mmHg. What is this pressure in units of bar? 2. A particular gas exerts a pressure of 731 mmHg. What is this pressure in units of atmospheres? 3.A flexible vessel contains 78.00 L of gas at a pressure of 1.50 atm. Under conditions of constant temperature and moles of gas, what is the pressure of the gas when the volume of the vessel is tripled? 4.A flexible vessel is filled to...
If the absolute temperature of 4 L of gas increases by a factor of 2, assuming pressure is contant, its volume will ____. Increase bya factor of 8 Stay the same Decrease by 50% Triple Quadruple Double
#3 From the following balanced equation, 4 NH3(g) + 5O2(g) — 4 NO(g) + 6H2O(g) how many grams of H, O can be formed when 6.12 g NH, reacts with 3.78 g 0,? Select the correct answer below: O 9718 O 3.788 O 6.12 O 2.55 Content attribution MacBook Pro Which of the following ions has the largest radius? Select the correct answer below: оооо Content attribution 51:01 10/28 QUESTION 27.4 POINTS What will happen to the pressure of a...
For a fixed amount of gas, if the absolute temperature of the gas is doubled, what happens to the pressure of the gas? A) The pressure of the gas becomes four times the original pressure. B) The pressure of the gas becomes double the original pressure. C) The pressure of the gas becomes triple the original pressure. D) The pressure of the gas becomes one half the original pressure. E) The answer cannot be determined without volume information.
Using Boyle’s Law, predict what will happen to the pressure of a gas in a container at constant temperature, if the volume of the container is changed to one-half its original size. Nothing will happen to the pressure. The pressure will be decrease to one-half its original value. The pressure will increase to twice its original value. More information is needed.
If the pressure of a gas in a container is increased while the number of molecules and temperature are held constant. What must happen? Volume must increase. k must decrease k must increase Volume must decrease.
6. Use the kinetic molecular theory of gases to predict what would happen to a closed sample of a gas whose temperature increased while its volume decreased. A) Its pressure would decrease. B) Its pressure would increase. C) Its pressure would hold constant. D) The number of moles of the gas would decrease. E) The average kinetic energy of the molecules of the gas would decrease.
A cylinder witha movable piston contains an ideal gas. Both the amount of gas and the volume of the container can be adjusted, but the temperature remains constant at 300.0 K. Use the ideal gas law and the individual gas law relationships to answer the questi ons below. L x atm nRT where R = 0.08206 PV mol xK 1st attempt See Periodic Table See Hint Part 1 (1 point) Calculate the number of moles of the gas in the...
Question 6 of 22 > Consider an ideal gas with an absolute temperature of T. To what temperature would the gas need to be heated to double its pressure? Express the answer in terms of T. T₂= Consider an ideal gas with a volume of V. To what volume would the gas need to be compressed to double its pressure? Express the answer in terms of Vi. V =
The ideal gas law states that PV = NkgT where P is the absolute pressure of a gas, V is the volume it occupies, N is the number of atoms and molecules in the gas, and T is its absolute temperature. The constant ko is called the Boltzmann constant and has the value kg = 1.38x10-23J/K. A very common expression of the ideal gas law uses the number of moles, n- N/NA (NA is Avogadro's number, NA=6.021023 per mole). PV...