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

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 166 kPa when the temperature is 0.00°C. What is the gauge pressure of the air in the tires when its temperature rises to 29.6°C and its volume increases to 1.68 x 10-2 m3? Assume atmospheric pressure is 1.01 x 105 Pa.

Question 4: The air pressure in a randomly selected tire of a new car of a...

Question 4: The air pressure in a randomly selected tire of a new car of a certain model is normally distributed with a mean value 32 psi and standard deviation of 1.5 psi. What is the probability that the pressure in a randomly selected tire is between 30 psi and 32 psi? Calculate the IQR of the distribution of tire pressure of all cars of this model? What is minimum tire pressure for the top 5% of the cars?

The gauge pressure in your car tires is 2.60 ✕ 105 N/m2 at a temperature of...

The gauge pressure in your car tires is 2.60 ✕ 105 N/m2 at a temperature of 35.0°C when you drive it onto a ferry boat to Alaska. What is their gauge pressure (in atm) later, when their temperature has dropped to −39.0°C? (Assume that their volume has not changed.)

1.If atmospheric pressure is 1.013 x 105 N/m2 and creates a column of mercury 760 mm...

1.If atmospheric pressure is 1.013 x 105 N/m2 and creates a column of mercury 760 mm high. What is the density of mercury in kg/m3 ? No units needed. 2.A car jack works when a mechanic uses a force 1.5 N, on a small piston of radius 6 cm. What force can he exert on a larger piston of radius 0.39 m ? 3If atmospheric pressure is 1.013 x 105 N/m2 , what height of water in meters would it...

A piston cylinder device contains air with a volume of 0.05 m3 at 25oC and 100...

A piston cylinder device contains air with a volume of 0.05 m3 at 25oC and 100 kPa pressure. The gas is now compressed to a final temperature of 95oC at 250 kPa. This compression is polytropic and follows PVn=constant. a. Determine how much boundary work was added to the gas [in kJ] b. How much heat was added or removed from this system during this process? [in kJ]

Air (a diatomic ideal gas) at 26.5°C and atmospheric pressure is drawn into a bicycle pump...

Air (a diatomic ideal gas) at 26.5°C and atmospheric pressure is drawn into a bicycle pump (see figure below) that has a cylinder with an inner diameter of 2.50 cm and length 47.0 cm. The downstroke adiabatically compresses the air, which reaches a gauge pressure of 8.00 105 Pa before entering the tire. We wish to investigate the temperature increase of the pump. The pump is made of steel that is 1.80 mm thick. Assume 4.00 cm of the cylinder's...

The engine of a sports car takes in air at 25°C at 1 atm. It compresses...

The engine of a sports car takes in air at 25°C at 1 atm. It compresses it adiabatically to 0.1 times the original volume. The air may be treated as an ideal gas with g = 1.4. a) What is the final temperature of the gas in Celius? b) If the volume of air intake is the equivalent of 1 m3, at this temperature and pressure, how many moles of air does the engine intake? c) How much energy did...

A 75-kg person enters a 1,500-kg car, and the suspension system compresses by 1 cm. Treating...

A 75-kg person enters a 1,500-kg car, and the suspension system compresses by 1 cm. Treating the entire suspension system as a single ideal spring, what is its spring constant? Treating the car and driver as single mass on this ideal spring, what is its natural frequency of oscillation? Part B: Pressure on Tires The front tires of the car are inflated to a gauge pressure of 35 psi (241.3 kPa) on a warm afternoon day when the air temperature...