The elasticity of the balloon material allows it to stretch as the water occupies more space inside, preventing it from bursting. The pressure is distributed evenly throughout the balloon, reducing the likelihood of it bursting.
The balloon did not burst because the water inside absorbed and distributed the force of the object puncturing it, preventing the balloon from tearing. The water acted as a cushion, reducing the pressure on the balloon's surface and allowing it to remain intact.
The water inside the balloon will heat up and expand as the temperature increases. This will create pressure inside the balloon, potentially causing it to burst if the expansion is too great.
Water balloons burst when dropped from certain heights due to the force of impact generated when they hit the ground. The sudden deceleration causes the water inside the balloon to continue moving forward, resulting in a pressure spike inside the balloon that causes it to burst.
When you put a balloon in hot water, the air inside the balloon will heat up and expand, causing the balloon to inflate and possibly burst due to the pressure buildup. The heat causes the air molecules inside the balloon to move faster and spread out, increasing the volume of the air inside the balloon.
The air inside the balloon will expand due to the heat, causing the balloon to inflate. If the water is hot enough, the balloon may eventually burst due to the increased pressure from the expanding air.
The balloon did not burst because the water inside absorbed and distributed the force of the object puncturing it, preventing the balloon from tearing. The water acted as a cushion, reducing the pressure on the balloon's surface and allowing it to remain intact.
The water inside the balloon will heat up and expand as the temperature increases. This will create pressure inside the balloon, potentially causing it to burst if the expansion is too great.
Water balloons burst when dropped from certain heights due to the force of impact generated when they hit the ground. The sudden deceleration causes the water inside the balloon to continue moving forward, resulting in a pressure spike inside the balloon that causes it to burst.
if we keep a pumpkin inside a balloon the balloon will not fly and will burst
When you put a balloon in hot water, the air inside the balloon will heat up and expand, causing the balloon to inflate and possibly burst due to the pressure buildup. The heat causes the air molecules inside the balloon to move faster and spread out, increasing the volume of the air inside the balloon.
The water inside the balloon will absorb some of the heat from the fire, which may cause the balloon to expand as the water heats up. Eventually, the balloon may burst when the pressure inside exceeds its capacity. It's important to exercise caution when conducting experiments involving fire and water-filled balloons to avoid injury.
The air inside the balloon will expand due to the heat, causing the balloon to inflate. If the water is hot enough, the balloon may eventually burst due to the increased pressure from the expanding air.
When the temperature increases, the air inside the balloon will expand, causing the balloon to inflate. If the temperature increase is too drastic, the pressure inside the balloon can exceed its limits and cause it to burst. However, this depends on the material and durability of the balloon.
Cold water doesn't burst at all.
If a balloon is placed above boiling water, the heat from the water will cause the air inside the balloon to expand. The balloon will likely inflate and may eventually burst if the heat is not removed or the balloon is not released.
The answer is fairly simple, while some believe that a balloon bursts when near hot air because the balloon simple melts, it actually has to do with the pressure inside the balloon. When near hot air, the air inside the balloon expands slightly, causing a change in pressure, and causing the balloon to burst.
Why does the balloon with no water break in the flame? And balloon with water not break? The flame heats the rubber of both balloons. The rubber of the balloon without water becomes so hot, that it becomes too weak to resist the pressure of the air inside the balloon. When water inside the balloon is placed in the flame, the water absorbs most of the heat from the flame. Then, the rubber of the balloon does not become very hot. Because the rubber does not become hot, it does not weaken, and the balloon does not break. Water is a good absorber of heat