An ideal gas at 10.0 °C and a pressure of 2.75 x 105 Pa occupies a...

1A. An ideal gas at 15.0 °C and a pressure of 1.08 x 105 Pa occupies...

1A. An ideal gas at 15.0 °C and a pressure of 1.08 x 105 Pa occupies a volume of 4.20 m3. (a) How many moles of gas are present? (b) If the volume is raised to 6.91 m3 and the temperature raised to 29.2 °C, what will be the pressure of the gas? (a) Number Units (b) Number Units B. The chlorophyll-a molecule (C55H72MgN4O5) is important in photosynthesis. (a) Determine its molecular mass (in atomic mass units). (b) What is...

A quantity of ideal gas at 12°C and 54 kPa occupies a volume of 7.8 m3....

A quantity of ideal gas at 12°C and 54 kPa occupies a volume of 7.8 m3. (a) How many moles of the gas are present? (b) If the pressure is now raised to 270 kPa and the temperature is raised to 40.0°C, how much volume does the gas occupy? Assume no leaks.

(a) How many molecules are present in a sample of an ideal gas that occupies a...

(a) How many molecules are present in a sample of an ideal gas that occupies a volume of 3.00 cm3, is at a temperature of 20°C, and is at atmospheric pressure? (b) How many molecules of the gas are present if the volume and temperature are the same as in part (a), but the pressure is now 1.10 ✕ 10−11 Pa (an extremely good vacuum)?

1. Atmospheric pressure is about 1.0x105 Pa. If a submarine travels underwater to a depth of...

1. Atmospheric pressure is about 1.0x105 Pa. If a submarine travels underwater to a depth of 0.53km, (a) what is the total pressure on the submarine? (b) What is the force exerted on a 0.08m2 porthole at that depth? 2. An ideal gas occupies a volume of 5x10-5 m3 at a pressure of 4,000 Pa and a temperature of 0°C. The gas is expanded to a volume of 0.006 m3 during which time its pressure drops to 350 Pa. What...

3 moles of an ideal gas is originally at a pressure of 100,000 Pa at 128oC....

3 moles of an ideal gas is originally at a pressure of 100,000 Pa at 128oC. The pressure is increased to 150000 Pa via an isovolumetric process. Then the gas is compressed via an isobaric process to a volume of .04 m3. a. Draw the PV curve precisely for this process. Calculate the endpoints. Be sure to indicate direction. b. Find the work done on the gas.

Problem: A sample of monatomic ideal gas containing 6.02´1023 atoms occupies a volume of 2.24´10-2 m3...

Problem: A sample of monatomic ideal gas containing 6.02´1023 atoms occupies a volume of 2.24´10-2 m3 at a pressure of 1.01´105 Pa. With the volume held constant, the gas is cooled until the atoms are moving at a root-mean-square speed of 402 m/s. The mass of each atom is 6.646´10-27 kg. What is the initial temperature of the gas? What is the final temperature of the gas? What is the change in entropy of the gas?

A sample of ideal gas at room temperature occupies a volume of 36.0 L at a...

A sample of ideal gas at room temperature occupies a volume of 36.0 L at a pressure of 692 torr . If the pressure changes to 3460 torr , with no change in the temperature or moles of gas, what is the new volume, V2?

1. a) Suppose 2 moles of a monatomic ideal gas occupies 5 m3 at a pressure...

1. a) Suppose 2 moles of a monatomic ideal gas occupies 5 m3 at a pressure of 1600 Pa. First: Find the temperature of the gas in Kelvin. Answer: 481 K Second: Find the total internal energy of the gas. Answer:12000 J 1. b) Suppose the gas undergoes an isobaric expansion to a volume of 7 m3. (Don’t forget to include + and – in each of the problems below) First: Find Q Answer: 8000 J Second: Find W Answer:...

A sample of ideal gas at room temperature occupies a volume of 17.0 L at a...

A sample of ideal gas at room temperature occupies a volume of 17.0 L at a pressure of 772 torr . If the pressure changes to 3860 torr , with no change in the temperature or moles of gas, what is the new volume, V2? If the volume of the original sample in Part A (P1 = 772 torr , V1 = 17.0 L ) changes to 50.0 L , without a change in the temperature or moles of gas...

Five moles of monatomic ideal gas have initial pressure 2.50 × 103 Pa and initial volume...

Five moles of monatomic ideal gas have initial pressure 2.50 × 103 Pa and initial volume 2.10 m3. While undergoing an adiabatic expansion, the gas does 1180 J of work.​ What is the final pressure of the gas after the expansion?​ in kPa