When you strike a match, the mechanical energy from your hand is transformed into thermal energy from the friction, causing the match to ignite. Once the match ignites, the chemical potential energy stored in the match head is converted into thermal energy and light energy that starts the candle wick burning.
When you use a match to light a candle, the match head contains stored chemical energy that is converted to thermal energy when it's ignited. This thermal energy then transfers to the candle's wick, causing the wax to melt and vaporize, generating heat and light energy as the candle burns.
When a candle burns, the chemical energy stored in the wax is transformed into heat energy and light energy. The chemical bonds in the wax molecules break, releasing energy in the form of heat and light as the wax reacts with oxygen in the air.
Chemical energy in the wax of the candle is transformed into heat and light energy through the process of combustion. The heat energy produced from the burning candle can be transferred to its surroundings, leading to an increase in the thermal energy of the surrounding air and objects. The light energy emitted by the candle can be absorbed and transformed into thermal energy or chemical energy by objects or materials in its vicinity.
The three transformations of energy are: 1) Potential energy being converted into kinetic energy, such as a ball rolling down a hill; 2) Chemical energy being converted into thermal energy, like in a burning candle; and 3) Electrical energy being converted into light energy, as seen with a light bulb.
In a light bulb, electrical energy is transformed into light energy and heat energy.
When you use a match to light a candle, the match head contains stored chemical energy that is converted to thermal energy when it's ignited. This thermal energy then transfers to the candle's wick, causing the wax to melt and vaporize, generating heat and light energy as the candle burns.
When you use a match to light a candle, multiple forms of energy transformations occur. Initially, chemical energy in the matchstick is converted to thermal energy through combustion, igniting the wick of the candle. This then produces light and heat energy as the candle burns, and eventually, some energy is lost as waste heat to the surroundings.
When a candle burns, the chemical energy stored in the wax is transformed into heat energy and light energy. The chemical bonds in the wax molecules break, releasing energy in the form of heat and light as the wax reacts with oxygen in the air.
Chemical energy in the wax of the candle is transformed into heat and light energy through the process of combustion. The heat energy produced from the burning candle can be transferred to its surroundings, leading to an increase in the thermal energy of the surrounding air and objects. The light energy emitted by the candle can be absorbed and transformed into thermal energy or chemical energy by objects or materials in its vicinity.
The three transformations of energy are: 1) Potential energy being converted into kinetic energy, such as a ball rolling down a hill; 2) Chemical energy being converted into thermal energy, like in a burning candle; and 3) Electrical energy being converted into light energy, as seen with a light bulb.
In a light bulb, electrical energy is transformed into light energy and heat energy.
The light of a candle is a form of radiant energy, which is produced when the candle's wax and wick combust and release energy in the form of heat and light.
chemical to light to heat energy :)
In a light bulb, electrical energy is transformed into light energy and heat energy.
A candle converts chemical energy stored in the wax and wick into heat and light energy through combustion. The chemical energy in the candle is released as heat and light when the wax is burned, creating a flame.
Chemical energy is converted to light and thermal energy.
Heat and light energy.