Will a change in temperature affect the pressure that is measured using a gauge? If so,...
1a. How does kinetic molecular theory explain why pressure is directly propirtional to temperature at a fixed volume? 1b. Explain Boyle’s Law using the Kinetic Molecular Theory. 1c. A hot air balloonist is rising too fast for her liking. should she increase or decrease the temperature of the gas in the balloon? 1d. Could the pilot of the balloonist from (1c) reduce her rate of ascent by allowing some gas to leak out of the balloon?
(a) A truck tire at rest and at a temperature of 7.00°C has a gauge pressure of 3.80 atm. When the truck is moving, the temperature of the rolling tire rises to 45.0°C. If the volume of the tire does not change, what is the gauge pressure (in atm) in the tire at the higher temperature? (Round your answer to at least one decimal place.) atm (b) What If? If the tire fails when inflated to a maximum gauge pressure...
Question 3: Use drawings to explain how a bellow gauge can be used to display pressure change information as changes in length, angle and voltage. Can a bellow gauge be used to display absolute pressure? How? Question 3: Use drawings to explain how a bellow gauge can be used to display pressure change information as changes in length, angle and voltage. Can a bellow gauge be used to display absolute pressure? How?
8. According to the assumption of Kinetic molecular theory, under what conditions of pressure and temperature do you most expect these assumptions to hold true? Explain.
there is an experiment. Does diet affect blood pressure? All subjects go through all three treatments. First, they eat a diet with a lot of salt. Their blood pressure is measured. Second, they eat a diet with a lot of sugar. Their blood pressure is measured again. Third, they eat a diet with a lot of protein. Their blood pressure is measured a third time. Describe exactly what an order effect may look like. Why are carry over effects problematic....
The pressure, volume, and temperature of a mole of an ideal gas are related by the equation PV = 8.31T, where P is measured in kilopascals, V in liters, and T in kelvins. Use differentials to find the approximate change in the pressure if the volume increases from 10 L to 10.3 L and the temperature decreases from 375 K to 370 K. (Note whether the change is positive or negative in your answer. Round your answer to two decimal...
Use kinetic molecular theory to explain the relationship between: 1. Pressure and volume of a confined gas 2. Volume and temperature of a confined gas 3. Pressure and temperature of a confined gas 4. Moles and volume of a gas
The pressure, volume, and temperature of a mole of an ideal gas are related by the equation PV = 8.317, where P is measured in kilopascals, V in liters, and T in kelvins. Use differentials to find the approximate change in the pressure if the volume increases from 10 L to 10.3 L and the temperature decreases from 345 K to 335 K. (Note whether the change is positive or negative in your answer. Round your answer to two decimal...
I need a written explanation about each relationship. Use kinetic molecular theory to explain the relationship between: 1. Pressure and volume of a confined gas 2. Volume and temperature of a confined gas 3. Pressure and temperature of a confined gas 4. Moles and volume of a gas
4. Suppose we change the pressure of an ideal gas at constant temperature. How is the corresponding AG related to its AS for the same process? For example, are they proportional to each other, and - if so - what is the proportionality constant?