to do any work we need energy but nothing is ideal or 100% efficient {efficient means when input is equal to output without wastage of energy inputted to a system} So when energy is inputted to a matter...it uses this energy by performing some work but gives off some energy in the form of heat
Heat energy is a wasted form of energy given out by a hairdryer. A significant amount of the electricity consumed by a hairdryer is converted into heat to dry the hair, making it an inefficient use of energy.
The wasted energy by a light bulb is primarily given off as heat. This heat is dispersed into the surrounding environment, contributing to the overall temperature of the room.
Unused energy is typically referred to as "wasted energy" or "excess energy." This can occur when energy is generated but not used or stored efficiently.
Because gravitational potential energy is defined by g*m*h where g is the gravitational constant 9.8, m is mass, and h is height. With just height and mass, you cannot calculate "wasted energy" by which i assume you mean energy lost to air resistance. However, if you are given the kinetic energy of the object just before it hits the ground, then you calculate the total energy before falling and compare it to the kinetic energy right before hitting the ground. the difference would represent the energy lost to air resistance
Energy. Energy can be transferred from one object to another during interactions, such as collisions or friction, and remains with the object after the interaction is complete.
Heat energy is a wasted form of energy given out by a hairdryer. A significant amount of the electricity consumed by a hairdryer is converted into heat to dry the hair, making it an inefficient use of energy.
Some of the electrical energy is given off as heat not visible light.
The wasted energy by a light bulb is primarily given off as heat. This heat is dispersed into the surrounding environment, contributing to the overall temperature of the room.
Unused energy is typically referred to as "wasted energy" or "excess energy." This can occur when energy is generated but not used or stored efficiently.
Because gravitational potential energy is defined by g*m*h where g is the gravitational constant 9.8, m is mass, and h is height. With just height and mass, you cannot calculate "wasted energy" by which i assume you mean energy lost to air resistance. However, if you are given the kinetic energy of the object just before it hits the ground, then you calculate the total energy before falling and compare it to the kinetic energy right before hitting the ground. the difference would represent the energy lost to air resistance
Diamonds are not generally wasted, given their monetary value and useful value as the hardest mineral known.
Radiation
Yes, both
A chemical reaction
Energy. Energy can be transferred from one object to another during interactions, such as collisions or friction, and remains with the object after the interaction is complete.
helium and some neutrons
answer