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What will the pressure inside the container become if the piston is moved to the 1.80 L rm L mark while the temperature of the gas is kept constant?
This problem can be solved with the ideal gas law. The original pressure and volume of the container are proportional the final pressure and volume of the container. The original pressure was 1 atmosphere and the original volume was 1 liter. If the final volume is 1.8 liters, then the final pressure is 0.55 atmospheres.
A liquid has a definite but it takes the shape of the container holding it?
The liquid has a definite volume because its molecules are packed closely together, but it takes the shape of the container due to its ability to flow and conform to its surroundings. This characteristic allows liquids to be poured and moved easily.
What will the pressure inside the container become if the piston is moved to the 1.20 mark while the temperature of the gas is kept constant?
If the temperature of the gas is kept constant, according to Boyle's Law, the pressure and volume of the gas are inversely proportional. As the piston moves to the 1.20 mark, reducing the volume, the pressure inside the container will increase to maintain equilibrium.
If you put a plastic ball in a container what will happen?
The plastic ball will remain in the container unless moved or acted upon by an external force. It will not change its state unless there is an external influence such as another object pressing against it or a change in temperature or pressure causing it to expand or contract.
What will the pressure inside the container become if the piston is moved to the 2.00 mark while the temperature of the gas is kept constant?
This depends onwhat scale is used (is it a linear scale?) on the mentioned 'marks' andwhether you are moving the piston from a higher or lower mark value to reach the final '2.00' value,In other words are you compressing (eg. from 4.00 volume values to 2.00) or decompressing (eg. from 1.00 volume values to 2.00)
What state will not change shape or volume when moved to a different container?
A state of matter that will not change shape or volume when moved to a different container is a solid. Particles in a solid are tightly packed and have a fixed shape and volume, making them retain their form even when transferred to another container.
Would volume of wood change if it was moved in larger container and why?
No, the volume of wood would not change when moved to a larger container. Volume is a measure of the amount of space occupied by an object, and it remains constant regardless of the size of the container in which the object is placed. The amount of wood remains the same, only the space it occupies may vary.
Would the volume of oxygen change if it were moved into a larger container?
It does not because change only occurs when temperature is involved.
Would the volume of solid liquid and gas change if each moved into a larger container?
Some will and some won't.
What happens to the volume of a solid when it is moved to a larger container?
The volume of the solid remains the same.
What is the volume of a gas under 12.0atm pressure, after it is moved to a container of 2275L volume in which the pressure reads 1.75atm?
I have no idea
Would the value of each substance change if each were moved into a larger container?
The value will not change because no temperatures have been applied.
What will the pressure inside the container become if the piston is moved to the 1.80 L rm L mark while the temperature of the gas is kept constant?
This problem can be solved with the ideal gas law. The original pressure and volume of the container are proportional the final pressure and volume of the container. The original pressure was 1 atmosphere and the original volume was 1 liter. If the final volume is 1.8 liters, then the final pressure is 0.55 atmospheres.
A liquid has a definite but it takes the shape of the container holding it?
The liquid has a definite volume because its molecules are packed closely together, but it takes the shape of the container due to its ability to flow and conform to its surroundings. This characteristic allows liquids to be poured and moved easily.
What will the pressure inside the container become if the piston is moved to the 1.20 mark while the temperature of the gas is kept constant?
If the temperature of the gas is kept constant, according to Boyle's Law, the pressure and volume of the gas are inversely proportional. As the piston moves to the 1.20 mark, reducing the volume, the pressure inside the container will increase to maintain equilibrium.
How would a zebra's life change if moved to a different ecosystem?
It depends on the echo system. If you moved them to The North Pole, they would probably go extinct.
If you put a plastic ball in a container what will happen?
The plastic ball will remain in the container unless moved or acted upon by an external force. It will not change its state unless there is an external influence such as another object pressing against it or a change in temperature or pressure causing it to expand or contract.
