As in balloon-powered rockets, a reduction in energy within the balloon can be accompanied by force exerted to move the balloon, or another object.
The energy stored in a balloon is in the form of higher pressure stretching it out. If the balloon has an opening, the air will be forced out until the balloon regains its unstretched shape. At that point, air inside the balloon is at the same pressure as the air outside the balloon.
Other containers can also store air at a pressure higher than the outside air. This can also provide force when the stored energy is released.
This is because there is always the same amount of air inside the balloon, providing the same amount of outwards force. Here on the ground, that outwards force is balanced by the air outside the balloon pushing on it. Higher in the atmosphere, however, there is less air, and therefore less force. Thus as the balloon ascends, there is a greater force pushing out than pushing in, and the balloon bursts.
The object through which the force is exerted must also change.
The force of the pressure put on the balloon is squeezed into smaller particles so the volume is smaller. :) From Jade Nicole White. X
The magnitude of a buoyant force on a balloon depends on the size of the balloon. In other words, the force will be either big or small depending on the correlating size of the balloon in use with the experiment.
There will be a change in the area/volume, depending on the direction of the force applied.
This is because there is always the same amount of air inside the balloon, providing the same amount of outwards force. Here on the ground, that outwards force is balanced by the air outside the balloon pushing on it. Higher in the atmosphere, however, there is less air, and therefore less force. Thus as the balloon ascends, there is a greater force pushing out than pushing in, and the balloon bursts.
Assuming that nothing else changes, multiplying the mass x3 will result in multiplying the force x3. F = m*a --> (3m)*a = 3F
The balloon expands or even pops. Because when a gas gains heat energy the particles in it move faster and further apart creating a greater force on the inside of the balloon until the balloon cannot contain that force.
Ricochet. Force changes direction.
changes in relative prices are the driving force in the market mechanism
The object through which the force is exerted must also change.
The object through which the force is exerted must also change.
The force of the pressure put on the balloon is squeezed into smaller particles so the volume is smaller. :) From Jade Nicole White. X
The magnitude of a buoyant force on a balloon depends on the size of the balloon. In other words, the force will be either big or small depending on the correlating size of the balloon in use with the experiment.
Simple
There will be a change in the area/volume, depending on the direction of the force applied.
Inputs force vertically almost like a saw. This changes the amount of force.