A steel-belted radial automobile tire is inflated to a gauge pressure of 2.15×10^5 Pa when the temperature is 65 °F. Later in the day, the temperature rises to 95 °F. Assuming the volume of the tire remains constant, what is the gauge pressure at the elevated temperature? [Hint: Remember that the ideal gas law uses absolute pressure.]
A steel-belted radial automobile tire is inflated to a gauge pressure of 2.15×10^5 Pa when the...
5. A steel-belted radial automobile tire is inflated to a gauge pressure of 1.75 10 Pa when the temperature is 61 °F. Later in the day, the temperature rises to 101 °F. Assuming the volume of the tire remains constant, what is the gauge pressure at the elevated temperature? (Hint: Remember that the ideal gas law uses absolute pressure.] Pa
5. A steel-belted radial automobile tire is inflated to a gauge pressure of 2.00 × 10 5 Pa when the temperature is 62 °F. Later in the day, the temperature rises to 101 °F. Assuming the volume of the tire remains constant, what is the gauge pressure at the elevated temperature? [Hint: Remember that the ideal gas law uses absolute pressure.]
5. A steel-belted radial automobile tire is inflated to a gauge pressure of 1.85 x 10° Pa when the temperature is 69 °F. Later in the day, the temperature rises to 96 °F. Assuming the volume of the tire remains constant, what is the gauge pressure at the elevated temperature? [Hint: Remember that the ideal gas law uses absolute pressure.] 3.01e5 Pa
5. A steel-belted radial automobile tire is inflated to a gauge pressure of 2.10 x 10° Pa when the temperature is 68 °F. Later in the day, the temperature rises to 97 °F. Assuming the volume of the tire remains constant, what is the gauge pressure at the elevated temperature? [Hint: Remember that the ideal gas law uses absolute pressure.] Ра
The four tires of an automobile are inflated to a gauge pressure of 2.0x10^5 Pa. Each tire has an area of 0.024m^2 in contact with the ground. Determine the weight of the automobile.
An automobile tire is inflated with air originally at 10.0degreesC and normal atmospheric pressure. During the process, the air is compressed to 31.0% of its original volume and the temperature is increased to 33.0degreesC. What is the tire pressure? ___ Pa After the car is driven at high speed, the tire's air temperature rises to 85.0degreesC and the tire's interior volume increases by 2.00%. What is the new tire pressure (absolute)? ____ Pa
An automobile tire has a maximum rating of 38.0 psi (gauge pressure). The tire is inflated (while cold) to a volume of 11.8 L and a gauge pressure of 36.0 psi at a temperature of 12.0 °C. Driving on a hot day, the tire warms to 65.0 °C and its volume expands to 12.2 L. Does the pressure in the tire exceed its maximum rating? (Note: the gauge pressure is the difference between the total pressure and atmospheric pressure. In...
+ 12 points Ser.P10 10 PO MI F My Note An automobile tire is inflated with air originally at 10.0°C and normal atmospheric pressure. During the process, the air is compressed to 24.0% of its original volume and the temperature is increased to 47,0C (a) What is the tire pressure in pa scals? 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 J.00%. What is...
An automobile tire is filled to a gauge pressure of 185 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 57°C. Please help with both parts of this problem. Thanks! An automobile tire is filled to a gauge pressure of 185 kPa when its temperature is 20°C. (Gauge pressure is the difference between the actual pressure and...
1) An automobile tire is filled to a gauge pressure of 196 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 51°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. (b) Calculate the gauge pressure if...