Yes it moves the can using static electricty
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You can move a drinks can with a balloon by creating static electricity on the balloon and then using that static charge to attract the can. Rub the balloon against your hair or a piece of fabric to generate static electricity, then hold the balloon near the can to make it move. The can will be attracted to the charged balloon due to static electricity.
The particles inside the balloon moved randomly due to the kinetic energy they possess. The temperature of the gas inside the balloon affects the speed at which the particles move. When the gas inside the balloon is heated, the particles move faster and spread out, causing the balloon to expand.
Balloon boats move due to the escaping air from the balloon propelling the boat forward. When the air is released from the inflated balloon, it creates a force in the opposite direction, causing the boat to move in the direction of the escaping air.
The balloon moved because of the force of the air being pushed out of the balloon by the person blowing into it. This force creates pressure inside the balloon, causing it to expand and eventually move in the opposite direction of the air flow.
When the air inside the balloon escapes, it creates a difference in air pressure between the inside and outside of the balloon. This pressure difference causes the balloon to move in the direction of lower pressure, which is typically outwards.
You can move a drinks can with a balloon by creating static electricity on the balloon and then using that static charge to attract the can. Rub the balloon against your hair or a piece of fabric to generate static electricity, then hold the balloon near the can to make it move. The can will be attracted to the charged balloon due to static electricity.
The particles inside the balloon moved randomly due to the kinetic energy they possess. The temperature of the gas inside the balloon affects the speed at which the particles move. When the gas inside the balloon is heated, the particles move faster and spread out, causing the balloon to expand.
They move with the wind
Balloon boats move due to the escaping air from the balloon propelling the boat forward. When the air is released from the inflated balloon, it creates a force in the opposite direction, causing the boat to move in the direction of the escaping air.
Balloon on string would dangling and moving from the wind, it doesn't move on its' own.
The balloon moved because of the force of the air being pushed out of the balloon by the person blowing into it. This force creates pressure inside the balloon, causing it to expand and eventually move in the opposite direction of the air flow.
When the air inside the balloon escapes, it creates a difference in air pressure between the inside and outside of the balloon. This pressure difference causes the balloon to move in the direction of lower pressure, which is typically outwards.
Increasing the air pressure inside the balloon or decreasing the weight of the balloon are two factors that can make a balloon move faster. Additionally, reducing air resistance by using a streamlined shape or reducing the size of the balloon can also help increase its speed.
Electrons move between the hair and the balloon.
When a balloon is released, the air inside moves backward due to inertia, propelling the balloon forward in the opposite direction. The inertia of the moving air creates a force that pushes against the balloon, causing it to move in the direction of least resistance.
The air molecules inside the balloon will heat up and move faster, increasing the pressure inside the balloon. This will cause the balloon to expand and grow in size.
If there's a fan in the room or the air is moving, the balloon will move with it.