yes it does
The size of the balloon does impact its lifting capacity because a larger balloon can displace more air and generate more lift. So, larger balloons generally have a greater lifting power compared to smaller ones.
No, the balloon did not change size.
When you pull the rubber sheet downward, the air inside the balloon gets compressed, causing the volume of the balloon to decrease. The pressure inside the balloon increases, causing it to shrink in size.
To stretch out a water balloon, gently pull on opposite ends of the balloon to gradually expand its size. Be careful not to pull too hard and pop the balloon. Another method is to fill the balloon with water and then slowly massage and manipulate the balloon to stretch it out.
Yes, the size of the balloon affects the amount of static power it can hold. A larger balloon has more surface area to build up static electricity compared to a smaller balloon. However, other factors such as the material of the balloon and environmental conditions also play a role in determining the amount of static power.
The size of the balloon does impact its lifting capacity because a larger balloon can displace more air and generate more lift. So, larger balloons generally have a greater lifting power compared to smaller ones.
No, the balloon did not change size.
When you pull the rubber sheet downward, the air inside the balloon gets compressed, causing the volume of the balloon to decrease. The pressure inside the balloon increases, causing it to shrink in size.
To stretch out a water balloon, gently pull on opposite ends of the balloon to gradually expand its size. Be careful not to pull too hard and pop the balloon. Another method is to fill the balloon with water and then slowly massage and manipulate the balloon to stretch it out.
Yes, the size of the balloon affects the amount of static power it can hold. A larger balloon has more surface area to build up static electricity compared to a smaller balloon. However, other factors such as the material of the balloon and environmental conditions also play a role in determining the amount of static power.
The shape and size of a balloon change when filled with air or water because the molecules of the substance fill the balloon and exert pressure on its walls. This pressure causes the balloon to expand and take on the shape of its contents. The volume of the balloon increases as more air or water is added, changing its size accordingly.
Because the air is coming inside the balloon.
The balloon can pull the can up until the weight of the water inside the can is equal to the buoyant force acting on the balloon. This depends on the size of the balloon and the amount of air it contains. Adding more water will increase the weight inside the can, making it difficult for the balloon to lift it.
If a balloon were completely filled with water, with no extra space, then it will change shape and/or size as the water is frozen. This is because water expands at a rate of 9% when frozen.
As you pull the rubber sheet downward, the balloon inside will be compressed and shrink in size due to the decreasing volume of the space within the rubber sheet. The air molecules inside the balloon will get more tightly packed together, causing the pressure inside the balloon to increase.
Increased pressure on the inside, or decreased pressure on the outside.
When a balloon is squeezed, the forces exerted on it cause the air inside the balloon to be compressed. This compression increases the pressure inside the balloon, leading to a change in the balloon's shape and size. If the squeezing force is too strong, it can cause the balloon to burst.