Table of Contents
- 1 What law happens when you put a balloon into liquid nitrogen?
- 2 Why does a balloon become smaller when placed in a freezer?
- 3 Why does an inflated balloon become smaller when it is placed in the refrigerator for a while?
- 4 Why does the balloon shrink when placed in cold water?
- 5 What would happen to a balloon placed in the freezer quizlet?
- 6 What happened to the balloon when cold?
- 7 What happens to the particles the pressure and the volume inside the balloon as it rises?
- 8 Why does a balloon shrink when heated in liquid nitrogen?
- 9 Does the ideal gas law apply to a balloon in liquid nitrogen?
- 10 Why does liquid nitrogen take up less space than gases?
What law happens when you put a balloon into liquid nitrogen?
The answer is a simple law of gas. When the nitrogen makes contact with the balloon, it chills the oxygen inside, slowing down the air molecules. Charles’s Law states that volume divided by temperature remains constant.
Why does a balloon become smaller when placed in a freezer?
The frozen balloon shrank because the average kinetic energy of the gas molecules in a balloon decreases when the temperature decreases. This makes the molecules move more slowly and have less frequent and weaker collisions with the inside wall of the balloon, which causes the balloon to shrink a little.
Why is my balloon shrinking?
Air slowly diffuses through regular latex balloons, but the gaps between latex molecules are small enough that it takes a long time for enough air to leak out to really matter. If you put helium into a latex balloon, it diffuses out so quickly your balloon would deflate in next to no time.
Why does an inflated balloon become smaller when it is placed in the refrigerator for a while?
A balloon shrinks inside a fridge because of the way gases behave. If the pressures remain the same on a fixed mass of gas, a drop in temperature will reduce the volume of the gas. The gas molecules get closer together and the density increases.
Why does the balloon shrink when placed in cold water?
(Gases always expand when they’re warm – the heat gives the gas energy to spread out more). The expanding gas blows up the balloon. When you put the bottle into cold water, the air cools down again. Cool air hasn’t got as much energy, so it shrinks – and the balloon shrinks with it.
Why might a balloon that is inflated almost to its capacity pop or explode on an extremely warm day?
8) Why might a balloon, that is inflated almost to its capacity, pop or explode on an extremely warm day? The balloon may be faulty. It might pop because of the weakening of the balloon by the heat. The balloon might pop due to the increase in the volume of the gas.
What would happen to a balloon placed in the freezer quizlet?
What will happen to the size of a balloon when it is placed in a freezer? Explain. It shrinks; as the temperature of the air decreases, the volume of the air decreases.
What happened to the balloon when cold?
In hot water, the Balloon inflated because of hot air molecules, and in cold water, the Balloon deflated because of cold air molecules.
What happened to balloon when cooled?
When the balloon is cooled, the volume of the balloon is greater, resulting in a greater average density of the balloon and helium. This makes the balloon come down.
What happens to the particles the pressure and the volume inside the balloon as it rises?
The stronger outside air pressure compresses the balloon. As the balloon volume decreases, pressure inside the balloon increases. It eventually is able to balance the outside air pressure.
Why does a balloon shrink when heated in liquid nitrogen?
Ideal Gas Law and the Shrinking balloon in liquid nitrogen. The answer to why it condenses is not so clearcut. The air in the balloon is at an elevated pressure, and increasing the pressure will raise the boiling point temperature at which the gas can liquify, but that would appear to be a small effect.
Does helium shrink in liquid nitrogen?
This makes sense, since helium does not liquefy until cooled to 4 K1. Because of this, helium gas behaves ideally when placed in liquid nitrogen. Thus, a helium filled balloon does not shrink to zero volume when placed in liquid nitrogen. In fact, the helium balloon appears to “resist” shrinking!
Does the ideal gas law apply to a balloon in liquid nitrogen?
Shrinking balloon in liquid nitrogen Applying the ideal gas lawto the gas above the liquid nitrogenin a vacuum flasksuggests that the volume of a balloon placed in it would reduce to one-fourth its volume. Actually, it reduces much more than that – virtually removing all the gas in the balloon. Why doesn’t the ideal gas law apply in this case?
Why does liquid nitrogen take up less space than gases?
This is because we are taking a balloon filled with atmospheric air and subjecting them to liquid nitrogen. The nitrogen in the air gets cold enough that it starts to turn into a liquid! Liquids take up far less space than gases because the molecules are closer together.