Yes, they can travel further, but they don't produce energy. They store and use energy. When you pull a rubber band, you are transferring energy from your body into the rubber band. Then when you let go, the rubber band releases the energy.
Yes, the size of a rubber band can affect the distance it can stretch across a room. A larger rubber band will have more elasticity and be able to stretch further compared to a smaller one. Additionally, the larger rubber band will hold more potential energy, allowing it to travel a greater distance.
You can travel faster than a horse or a carriage and you can travel further wasting small energy.
gravity makes a rubber band travel
Beta particles can travel up to a few meters in air before they lose energy and are absorbed. The distance they can travel depends on the energy of the particle, with higher energy beta particles able to travel further.
Energy is stored in the cells. The cells travel around the organism (or a living system) and give off, or produce, energy.
A heavy duty rubber band will travel about 50-70 mph in its first 20 ft of travel.
When a rubber band is plucked or stretched and released, it vibrates back and forth rapidly. The vibration causes the molecules in the rubber band to collide, creating sound waves that travel through the air. This propagation of energy in the form of sound waves is how a rubber band generates sound when it vibrates.
The longer the rubber band, the more potential energy it can store and transfer to the go cart. This can result in the go cart traveling a greater distance when released compared to a shorter rubber band. However, other factors like the weight of the go cart and the surface it travels on will also impact the distance it can travel.
Yes, the amount of stretch of a rubber band can affect the distance it will travel. Greater stretch can provide more potential energy to propel the rubber band, resulting in a longer distance traveled. However, overly stretching the rubber band beyond its limit can cause it to snap prematurely.
Rubber has a porous and flexible structure that absorbs sound waves as they travel through it, reducing their intensity and preventing them from passing through easily. The air pockets within rubber also help to dissipate the sound energy, resulting in effective sound insulation.
Energy in seismic waves is lost as they travel through the ground. As such the further they travel from the epicentre of the earthquake, the greater the energy loss and the less damage they can do.
Gamma radiation can travel several meters in air, depending on its energy level. Higher energy gamma rays can penetrate further than lower energy ones. Typically, gamma radiation can travel tens of meters in air before being absorbed or scattered.