When a balloon is squashed, the air particles inside it are compressed together within a smaller space. This compression increases the air pressure inside the balloon, causing it to resist the squashing force applied from the outside. The air particles do not get squashed individually, but rather experience increased pressure collectively.
When you blow into a balloon, the particles of air you exhale are compressed and forced into the balloon. This increases the air pressure inside the balloon, causing it to expand and inflate.
The number of air particles in a balloon can vary depending on the size of the balloon and the pressure of the air inside. On average, there are approximately 2.5 x 10^22 air molecules in a standard-sized balloon.
Cooling the air inside a sealed balloon will cause the air particles to slow down and lose energy, resulting in a decrease in pressure. As a result, the balloon will shrink in size due to the decrease in pressure exerted by the air particles on the balloon walls.
The air particles inside a balloon exert pressure evenly in all directions against the walls of the balloon, causing it to inflate and take on its shape. The elasticity of the balloon material allows it to stretch in response to the pressure from the air particles, resulting in the balloon's shape.
In a hot air balloon, the particles refer to the air molecules inside the balloon that are heated by the burner. When the air molecules are heated, they become less dense and rise, creating lift for the balloon. This process allows the hot air balloon to float in the cooler, denser air around it.
we can squash a ballon because inside a balloon is a type of gas which is called hellium hellium can make our voice sqeeky just like any other gas and it is invisible♥ my pleasure for writing this ♥ bye heart anoymous
When you blow into a balloon, the particles of air you exhale are compressed and forced into the balloon. This increases the air pressure inside the balloon, causing it to expand and inflate.
The number of air particles in a balloon can vary depending on the size of the balloon and the pressure of the air inside. On average, there are approximately 2.5 x 10^22 air molecules in a standard-sized balloon.
Cooling the air inside a sealed balloon will cause the air particles to slow down and lose energy, resulting in a decrease in pressure. As a result, the balloon will shrink in size due to the decrease in pressure exerted by the air particles on the balloon walls.
The air particles inside a balloon exert pressure evenly in all directions against the walls of the balloon, causing it to inflate and take on its shape. The elasticity of the balloon material allows it to stretch in response to the pressure from the air particles, resulting in the balloon's shape.
The inside particles of a hot air balloon are air molecules that are heated by the burner to make the balloon rise. The outside particles are also air molecules that create the lift force when the inside air is hotter than the outside air.
In a hot air balloon, the particles refer to the air molecules inside the balloon that are heated by the burner. When the air molecules are heated, they become less dense and rise, creating lift for the balloon. This process allows the hot air balloon to float in the cooler, denser air around it.
Air particles inside a balloon collide with the walls of the balloon, creating a force that is evenly distributed on all sides, which results in air pressure. The more particles there are inside the balloon, the greater the number of collisions, and thus the higher the air pressure.
The particles of air inside the balloon collide with the walls of the balloon, creating a force per unit area known as pressure. As more air particles are added or the volume decreases, the frequency of collisions increases, resulting in higher pressure within the balloon.
A hot air balloon rises because the air inside the balloon is heated by a burner, making it less dense than the surrounding cooler air. This temperature difference creates buoyancy, causing the balloon to float upwards. As the air inside the balloon cools down, the particles lose energy and the balloon begins to descend.
Air particles inside a balloon collide with the walls of the balloon, transferring momentum and exerting a force per unit area, creating pressure. The more particles colliding with the walls, the greater the pressure exerted on the inside of the balloon.
yes it can for example a marshmallo is a solid but it can be squashed because not all solids are strong