An automobile tire has a volume of 1.62 x 10-2 m3 and contains air at a...

An automobile tire has a volume of 1.62 x 10-2 m3 and contains air at a...

An automobile tire has a volume of 1.62 x 10-2 m3 and contains air at a gauge pressure (pressure above atmospheric pressure) of 164 kPa when the temperature is 0.00°C. What is the gauge pressure of the air in the tires when its temperature rises to 21.8°C and its volume increases to 1.68 x 10-2 m3? Assume atmospheric pressure is 1.01 x 105 Pa.

An automobile tire is filled to a gauge pressure of 195 kPa when its temperature is...

An automobile tire is filled to a gauge pressure of 195 kPa when its temperature is 20°C. (Gauge pressure is the difference between the actual pressure and atmospheric pressure.) After the car has been driven at high speeds, the tire temperature increases to 55°C. (a) Assuming that the volume of the tire does not change, and that air behaves as an ideal gas, find the gauge pressure of the air in the tire. kPa (b) Calculate the gauge pressure if...

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the...

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the process, the air is compressed to 32.0% of its original volume and the temperature is increased to 37.0°C. (a) What is the tire pressure in pascals? Pa (b) After the car is driven at high speed, the tire's air temperature rises to 85.0°C and the tire's interior volume increases by 3.00%. What is the new tire pressure (absolute) in pascals? Pa

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the...

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the process, the air is compressed to 25.0% of its original volume and the temperature is increased to 48.0°C. (a) What is the tire pressure in pascals? Pa (b) After the car is driven at high speed, the tire's air temperature rises to 85.0°C and the tire's interior volume increases by 3.00%. What is the new tire pressure (absolute) in pascals? Pa

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the...

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the process, the air is compressed to 29.0% of its original volume and the temperature is increased to 47.0°C. (a) What is the tire pressure in pascals? 395077.4 Pa (b) After the car is driven at high speed, the tire's air temperature rises to 85.0°C and the tire's interior volume increases by 3.00%. What is the new tire pressure (absolute) in pascals?    Use the...

A car tire contains 0.0380 m3 of air at a pressure of 2.20 × 105 N/m2...

A car tire contains 0.0380 m3 of air at a pressure of 2.20 × 105 N/m2 (about 32 psi). How much more internal energy does this gas have than the same volume has at zero gauge pressure (which is equivalent to normal atmospheric pressure)? The answer is 677 x 103J, but I am not sure how to solve it. Thank you so much!!!

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the...

An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the process, the air is compressed to 32.0% of its original volume and the temperature is increased to 42.0°C. (a) What is the tire pressure in pascals? (b) After the car is driven at high speed, the tire's air temperature rises to 85.0°C and the tire's interior volume increases by 3.00%. What is the new tire pressure (absolute) in pascals?

Initially at a temperature of 90.0 ∘C, 0.220 m3 of air expands at a constant gauge...

Initially at a temperature of 90.0 ∘C, 0.220 m3 of air expands at a constant gauge pressure of 1.31×105 Pa to a volume of 1.50 m3 and then expands further adiabatically to a final volume of 2.35 m3 and a final gauge pressure of 2.23×104 Pa. Compute the total work done by the air. CV for air is 20.8 J/(mol⋅K) .

A welder using a tank of volume 7.50×10−2 m3 fills it with oxygen (with a molar...

A welder using a tank of volume 7.50×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.30×105 Pa and temperature of 36.6 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 21.6 ∘C, the gauge pressure of the oxygen in the tank is 1.95×105 Pa . A) Find the initial mass of oxygen. kg B) Find...

A welder using a tank of volume 8.00×10−2 m3 fills it with oxygen (with a molar...

A welder using a tank of volume 8.00×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 2.95×105 Pa and temperature of 37.8 ∘C. The tank has a small leak, and in time some of the oxygen leaks out. On a day when the temperature is 21.9 ∘C, the gauge pressure of the oxygen in the tank is 1.95×105 Pa. Find the initial mass of oxygen. Find the mass of oxygen...