What Happens When a Balloon Bursts?

What causes a balloon to go up into the air when it bursts? The air pushes the balloon in the opposite direction.

Explanation:

When a balloon bursts, the air inside pushes the balloon in the opposite direction. This happens because of the pressure difference between the air inside the balloon and the surrounding atmosphere. The pressure from inside the balloon creates a force that propels the balloon in the opposite direction to the air that was released. This phenomenon is known as a reaction force, where the air pushes the balloon in the opposite direction to maintain equilibrium.

When the balloon bursts, the sudden release of pressure causes a rapid expulsion of air. This rapid movement generates a force that pushes the balloon in the opposite direction. The pressure gradient between the inside and outside of the balloon creates a strong force that propels the balloon upwards.

Drag is not the cause of the balloon going up into the air when it bursts. Drag is the resistance force exerted by a fluid, such as air, on a moving object. In this case, the force that propels the balloon upwards is generated by the reaction force of the air inside the balloon.

Gravity does not push the balloon into the air when it bursts. Gravity is a force that pulls objects towards the center of the Earth. In the case of the balloon bursting, the force propelling the balloon upwards is a result of the pressure difference and the reaction force of the air inside the balloon.

Lift does not lower the air pressure on the top of the balloon when it bursts. Lift is a force generated by the flow of air over an object, such as an airplane wing. In the case of the bursting balloon, the force propelling the balloon upwards is due to the reaction force of the air inside the balloon, not lift.

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