(a) What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

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Answer 1

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Definition Definition Law that is the combined form of Boyle's Law, Charles's Law, and Avogadro's Law. This law is obeyed by all ideal gas. Boyle's Law states that pressure is inversely proportional to volume. Charles's Law states that volume is in direct relation to temperature. Avogadro's Law shows that volume is in direct relation to the number of moles in the gas. The mathematical equation for the ideal gas law equation has been formulated by taking all the equations into account: PV=nRT Where P = pressure of the ideal gas V = volume of the ideal gas n = amount of ideal gas measured in moles R = universal gas constant and its value is 8.314 J.K-1mol-1 T = temperature

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

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Part C Find the height yi from which the rock was launched. Express your answer in meters to three significant figures. Learning Goal: To practice Problem-Solving Strategy 4.1 for projectile motion problems. A rock thrown with speed 12.0 m/s and launch angle 30.0 ∘ (above the horizontal) travels a horizontal distance of d = 19.0 m before hitting the ground. From what height was the rock thrown? Use the value g = 9.800 m/s2 for the free-fall acceleration. PROBLEM-SOLVING STRATEGY 4.1 Projectile motion problems MODEL: Is it reasonable to ignore air resistance? If so, use the projectile motion model. VISUALIZE: Establish a coordinate system with the x-axis horizontal and the y-axis vertical. Define symbols and identify what the problem is trying to find. For a launch at angle θ, the initial velocity components are vix=v0cosθ and viy=v0sinθ. SOLVE: The acceleration is known: ax=0 and ay=−g. Thus, the problem becomes one of…

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Phys 22

Answer 2

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Definition Definition Law that is the combined form of Boyle's Law, Charles's Law, and Avogadro's Law. This law is obeyed by all ideal gas. Boyle's Law states that pressure is inversely proportional to volume. Charles's Law states that volume is in direct relation to temperature. Avogadro's Law shows that volume is in direct relation to the number of moles in the gas. The mathematical equation for the ideal gas law equation has been formulated by taking all the equations into account: PV=nRT Where P = pressure of the ideal gas V = volume of the ideal gas n = amount of ideal gas measured in moles R = universal gas constant and its value is 8.314 J.K-1mol-1 T = temperature

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Expert Solution & Answer

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Check out a sample textbook solution

See solution

Answer 3

Question

Definition Definition Law that is the combined form of Boyle's Law, Charles's Law, and Avogadro's Law. This law is obeyed by all ideal gas. Boyle's Law states that pressure is inversely proportional to volume. Charles's Law states that volume is in direct relation to temperature. Avogadro's Law shows that volume is in direct relation to the number of moles in the gas. The mathematical equation for the ideal gas law equation has been formulated by taking all the equations into account: PV=nRT Where P = pressure of the ideal gas V = volume of the ideal gas n = amount of ideal gas measured in moles R = universal gas constant and its value is 8.314 J.K-1mol-1 T = temperature

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Expert Solution & Answer

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Check out a sample textbook solution

See solution

Answer 4

Question

Definition Definition Law that is the combined form of Boyle's Law, Charles's Law, and Avogadro's Law. This law is obeyed by all ideal gas. Boyle's Law states that pressure is inversely proportional to volume. Charles's Law states that volume is in direct relation to temperature. Avogadro's Law shows that volume is in direct relation to the number of moles in the gas. The mathematical equation for the ideal gas law equation has been formulated by taking all the equations into account: PV=nRT Where P = pressure of the ideal gas V = volume of the ideal gas n = amount of ideal gas measured in moles R = universal gas constant and its value is 8.314 J.K-1mol-1 T = temperature

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Expert Solution & Answer

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See solution

Answer 5

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Answer 6

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

Answer 7

Chapter 25, Problem 89QAP

To determine

(a)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by an astronaut in the rocket ship's lab if a spaceship is traveling at 0.50c relative to Earth, inside the ship, a cylindrical piston that is 50.0 cm long and 4.50 cm in diameter contains 1.25 mol of ideal gas at 25.0°C under 2.20 atm of pressure, the cylinder is oriented with its axis parallel to the direction in which the spaceship is flying?

Answer 8

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Answer 9

To determine

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Answer 10

Expert Solution & Answer

Answer 11

Expert Solution & Answer

Answer 12

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Answer 13

Ch. 25 - Prob. 1QAP Ch. 25 - Prob. 2QAP Ch. 25 - Prob. 3QAP Ch. 25 - Prob. 4QAP Ch. 25 - Prob. 5QAP Ch. 25 - Prob. 6QAP Ch. 25 - Prob. 7QAP Ch. 25 - Prob. 8QAP Ch. 25 - Prob. 9QAP Ch. 25 - Prob. 10QAP

Solution Summary: The author explains the particle density of the gas in the cylinder as measured by an astronaut in a rocket ship's lab.

Concept explainers

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

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Chapter 25 Solutions

Solution Summary: The author explains the particle density of the gas in the cylinder as measured by an astronaut in a rocket ship's lab.

Concept explainers

(b) What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?

Want to see the full answer?

Chapter 25 Solutions

(b)

What is the particle density (in molecules per cubic meter) of the gas in the cylinder as measured by a scientist in an Earth lab?