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What is the final pressure of a system (ATM) that has the volume increased from 0.75 L to 3.1L with an initial pressure of 1.25 ATM?
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What will be the new volume of the gas if the volume at 92 KPA is 420 ml and the amount of pressure is increased to 118 KPA?
Using Boyle's Law, we can determine the new volume by multiplying the initial volume by the initial pressure and then dividing by the final pressure. So, the new volume would be (420 ml x 92 KPA) / 118 KPA = 328.81 ml.
How can pressure be increased for a gaseous system?
Pressure can be increased in a gaseous system by either decreasing the volume of the system or increasing the number of gas molecules present. This can be achieved by compressing the gas into a smaller space or by adding more gas molecules to the system.
What is the final pressure of a system (ATM) that has the volume increased from 0.75 L to 2.4L with an initial pressure of 1.25 ATM?
The ideal gas law states that PV = nRT, where P = pressure and V = volume. Assuming that nRT are all constant, then V = nRT/P. If P decreases by 1/2, then V will double, leaving a final volume of 4 L.
The pressure acting on 50 cubic meters of gas is raised from 200 kPa to 400 kPa The temperature remains constant What is the new volume?
Using Boyle's Law, we can calculate the new volume by dividing the initial pressure by the final pressure and multiplying it by the initial volume. New Volume = (Initial Pressure / Final Pressure) * Initial Volume = (200 kPa / 400 kPa) * 50 cubic meters = 25 cubic meters.
What is it called when pressure is increased at a constant temperature?
The formula is pV=k; this is the Boyle-Mariotte law. If the pressure increase in a closed system the volume decrease.It is an important gas law.
What will be the new volume of the gas if the volume at 92 KPA is 420 ml and the amount of pressure is increased to 118 KPA?
Using Boyle's Law, we can determine the new volume by multiplying the initial volume by the initial pressure and then dividing by the final pressure. So, the new volume would be (420 ml x 92 KPA) / 118 KPA = 328.81 ml.
What is Charles law and boyles law?
Charles's Law states that the volume of a gas is directly proportional to its temperature at constant pressure. Boyle's Law states that the pressure of a gas is inversely proportional to its volume at constant temperature. Both laws describe the behavior of gases under different conditions.
How can pressure be increased for a gaseous system?
Pressure can be increased in a gaseous system by either decreasing the volume of the system or increasing the number of gas molecules present. This can be achieved by compressing the gas into a smaller space or by adding more gas molecules to the system.
What would happen to the volume of a gas in a closed system if pressure increased?
If the pressure of a gas in a closed system increases, the volume of the gas would decrease, following Boyle's Law. This is because there is an inverse relationship between pressure and volume when temperature is constant.
What is the final pressure of a system (ATM) that has the volume increased from 0.75 L to 2.4L with an initial pressure of 1.25 ATM?
The ideal gas law states that PV = nRT, where P = pressure and V = volume. Assuming that nRT are all constant, then V = nRT/P. If P decreases by 1/2, then V will double, leaving a final volume of 4 L.
What happens to the volume of the gas if the pressure increased?
Volume decrease.
How does the pressure change when the total volume is increased to 20.0L?
If the total volume increases, then the pressure decreases.
How to calculate final pressure when given initial pressure and initial temp and also final temp and know that it's a constant volume process from initial state?
You can calculate pressure and temperature for a constant volume process using the combined gas law.
What is its volume when the pressure is tripled?
If the pressure is tripled, Boyle's Law states that the volume will decrease by a factor of three. This relationship holds as long as the temperature remains constant.
How are temperature air pressure related?
If the temperature of a system is increased, but the volume remains constant, the pressure will increase. If Pressure is increased, then temperature will increase. They are directly proportional, as shown by the combined gas law equation, (V1P1)/T1=V2P2/T2
When the pressure of a gas at a constant temperature is increased the volume of the gas decreases when the pressure is decreased the volume increases?
decreases
What volume will 1.25 liters of carbon dioxide occupy at 50.0 degrees if the pressure changes from 0.865 ATM to 0.820 ATM?
Using the ideal gas law (PV = nRT), you can calculate the initial and final number of moles of CO2. Given that the temperature remains constant, the ratio of the initial volume to final volume is equal to the ratio of the initial pressure to the final pressure. Applying this ratio to the initial volume of 1.25 liters will give you the final volume.
