4.-(All Gass laws) A car tire has a recommended rating of 2.518 atm. While parked, the tire has at thetemperature of 11.0∘C, inflated to a volume of 10.4 L and with a pressure of 2.109 atm. Whendriving on a hot day, the tire warms to 62.0∘Cand its volume expands to 10.9 L.a) Assuming there are the same molecules in the tire (n is constant) Does the pressure in thetire exceed its recommended rating on the hot day?b) Find the number of moles in the tirec) Convert your answer in A to mmHgd) Knowing the number of mols in the tire use the Ideal Gas law to calculate the final pressureat 62 C, is it the same as your answer in Ae) While parked (11 C) you inflated the tire to 2.38 atm assuming there is no temperaturechange what is the new volume of the tire?f) Once you finish your drive, the tire temperature is 62 ∘C, after 10 minutes of being parkedthe temperature of the tire is now 58∘C assuming your tire volume does not change what isthe new pressure of the tire? (get the original pressure form C)g) You are driving and hit a pothole at full speed, your tire volume momentarily changes from10.9 to 10.7 Liters. What was your tire pressure when you hit the pothole? Use your initialpressure from answer A and assume there was no temperature change.h) If the atmospheric composition is: Nitrogen (78.1%), Oxygen (20.9%), Argon (0.93%), CarbonDioxide (0.04%). From your answer in e What is the partial pressure of each of the gases inyour tire? im having problems with h
4.-(All Gass laws) A car tire has a recommended rating of 2.518 atm. While parked, the tire has at thetemperature of 11.0∘C, inflated to a volume of 10.4 L and with a pressure of 2.109 atm. Whendriving on a hot day, the tire warms to 62.0∘Cand its volume expands to 10.9 L.a) Assuming there are the same molecules in the tire (n is constant) Does the pressure in thetire exceed its recommended rating on the hot day?b) Find the number of moles in the tirec) Convert your answer in A to mmHgd) Knowing the number of mols in the tire use the Ideal Gas law to calculate the final pressureat 62 C, is it the same as your answer in Ae) While parked (11 C) you inflated the tire to 2.38 atm assuming there is no temperaturechange what is the new volume of the tire?f) Once you finish your drive, the tire temperature is 62 ∘C, after 10 minutes of being parkedthe temperature of the tire is now 58∘C assuming your tire volume does not change what isthe new pressure of the tire? (get the original pressure form C)g) You are driving and hit a pothole at full speed, your tire volume momentarily changes from10.9 to 10.7 Liters. What was your tire pressure when you hit the pothole? Use your initialpressure from answer A and assume there was no temperature change.h) If the atmospheric composition is: Nitrogen (78.1%), Oxygen (20.9%), Argon (0.93%), CarbonDioxide (0.04%). From your answer in e What is the partial pressure of each of the gases inyour tire? im having problems with h
4.-(All Gass laws) A car tire has a recommended rating of 2.518 atm. While parked, the tire has at the temperature of 11.0∘C, inflated to a volume of 10.4 L and with a pressure of 2.109 atm. When driving on a hot day, the tire warms to 62.0∘Cand its volume expands to 10.9 L. a) Assuming there are the same molecules in the tire (n is constant) Does the pressure in the tire exceed its recommended rating on the hot day? b) Find the number of moles in the tire c) Convert your answer in A to mmHg d) Knowing the number of mols in the tire use the Ideal Gas law to calculate the final pressure at 62 C, is it the same as your answer in A e) While parked (11 C) you inflated the tire to 2.38 atm assuming there is no temperature change what is the new volume of the tire? f) Once you finish your drive, the tire temperature is 62 ∘C, after 10 minutes of being parked the temperature of the tire is now 58∘C assuming your tire volume does not change what is the new pressure of the tire? (get the original pressure form C) g) You are driving and hit a pothole at full speed, your tire volume momentarily changes from 10.9 to 10.7 Liters. What was your tire pressure when you hit the pothole? Use your initial pressure from answer A and assume there was no temperature change. h) If the atmospheric composition is: Nitrogen (78.1%), Oxygen (20.9%), Argon (0.93%), Carbon Dioxide (0.04%). From your answer in e What is the partial pressure of each of the gases in your tire?
im having problems with h
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
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