The same as any other animal- from the food they eat.
The rubber band stores potential energy when it is twisted. As it unwinds, this potential energy is converted into kinetic energy that makes the propeller turn and allows the plane to fly.
The mass of the fly is 0.55g, or 0.00055 kg. The kinetic energy of the automobile in item 19 would need to be calculated first, then set equal to the kinetic energy of the fly. Solving for the velocity of the fly using the equation ( KE = \frac{1}{2}mv^2 ) would give the speed needed for the fly to have the same kinetic energy as the automobile.
The potential energy stored in the stretched rubber band is converted into kinetic energy as it is released, causing it to fly across the room.
Larger rubber bands tend to fly farther because they store more elastic potential energy that is released when they are stretched and released. The longer the rubber band is, the more energy it can store and transfer to the object being propelled.
Windmills do not "fly" in the traditional sense. Windmills harness the power of wind to generate electricity or pump water by using the kinetic energy generated by the movement of the wind to turn blades attached to a rotor. This rotational motion is then converted into mechanical energy through a generator.
the energy to fly
Eagles both fly and soar. Flying takes energy, soaring takes no energy.
Birds get there energy for eating, they digest the food that gives them energy. They can fly by having hallow bones, they use there energy as efficiently as possible so they can fly for long periods of time.
a venus fly trap gets a fly and then takes all the nutrents from the fly and makes it its own.
Ok, ghosts are spirits, therefor energy. If energy is air, that's how they fly! Air flies in air! LOL! But really, that is how.
Elastic potential energy->gravitational potential energy->kinetic energy
The rubber band stores potential energy when it is twisted. As it unwinds, this potential energy is converted into kinetic energy that makes the propeller turn and allows the plane to fly.
Butterflies use their energy in various ways. Butterflies use their energy to eat and to fly around their environments for example.
if you drink at least 30 cans of this leading energy drink then,studies have proven, that you will then be able to fly . my advice GET DRINKING if you drink at least 30 cans of this leading energy drink then,studies have proven, that you will then be able to fly . my advice GET DRINKING
No one knows
the energy it takes my chicken to fly
The mass of the fly is 0.55g, or 0.00055 kg. The kinetic energy of the automobile in item 19 would need to be calculated first, then set equal to the kinetic energy of the fly. Solving for the velocity of the fly using the equation ( KE = \frac{1}{2}mv^2 ) would give the speed needed for the fly to have the same kinetic energy as the automobile.