Yes. Much in the same way that a stretched rubberband has potential energy.
Potential energy is energy that is stored in an object, and can be changed into kinetic, or other forms of energy. There are many types, such as Elastic Potential Energy and Gravitational Potential Energy.
Static electricity
Neither, it is chemical! Static and current electricity are examples of it.
Potential energy, because of this a kite is not moving.
Electrostatic potential energy
Yes. Much in the same way that a stretched rubberband has potential energy.
Potential energy is energy that is stored in an object, and can be changed into kinetic, or other forms of energy. There are many types, such as Elastic Potential Energy and Gravitational Potential Energy.
Static electricity
Neither, it is chemical! Static and current electricity are examples of it.
Friction reduce the velocity, hence, it affect kinetic energy. The potential energy from static pressure is then drawn to maintain the velocity (transformation of potential -> kinetic energy). We then see the friction reduce the static pressure but actually, it affect kinetic first.
Neither, it is chemical! Static and current electricity are examples of it.
Yes. Much in the same way that a stretched rubberband has potential energy.
Potential energy, because of this a kite is not moving.
1) potential energy 2) Kinetic energy 3) Static energy 4) Thermal energy 5) Geothermal energy
Kinetic energy is that energy possessed by a moving object, inherent in the fact it is moving. Potential energy is that energy in any object which remains static within the object, and is not being transformed or transferred at that time.
The system tends to attain the state of minimum potential energy, so the effect of static electricity wears out very fast.