electrical energy>>>>mechanical energy>>>>heat energy
When a battery powers a flashlight, chemical energy stored in the battery is converted into electrical energy that powers the light bulb. This conversion involves a chemical reaction within the battery that produces a flow of electrons through the circuit, generating light as a result.
In a circuit, electrical energy is converted into other forms of energy such as light, heat or kinetic energy, depending on the components in the circuit. This energy conversion is based on the flow of electrons through the circuit, which powers devices connected to it.
electrical energy into chemical energy ( when u put the pluck into the electrical circuit ) and turns back into electrical energy ( when it turns into electrical energy to the phone )
In a dry cell, chemical energy is converted into electrical energy. This energy conversion occurs through chemical reactions within the cell that produce a flow of electrons, generating an electric current.
Electrical energy can be changed into chemical energy through a process called electrochemical reactions. This conversion occurs in batteries or fuel cells where electrons flow through a circuit, creating a chemical reaction that stores or releases energy.
Energy conversion takes place in a flashlight when the electrical energy from the battery is converted into light energy and heat energy through the process of powering the light bulb or LED. This conversion occurs instantly when the circuit is completed and the flashlight is turned on.
the energy source cercuit the diagram with coultghmtr that destryos the circuit
The conversion of chemical energy into thermal energy through combustion is a common example. Burning wood or gasoline releases the stored chemical energy in the form of heat and light energy.
An energy flow diagram is normally a flow diagram showing the energy gains and energy losses of a given process. This type of diagram is often used to show the efficiency of a given system or lack thereof.
The battery symbol in a circuit diagram represents the source of electrical energy in the circuit. It shows the direction in which the electrical energy flows, from the positive terminal of the battery to the negative terminal, providing power to the components in the circuit.
In a torch battery, chemical energy is converted to electrical energy when the battery is connected to the circuit in the torch. The electrical energy then powers the light bulb, converting the electrical energy into light energy and heat energy.
Photosynthesis converts light energy from the sun into chemical energy stored in glucose molecules. This process involves the conversion of light energy into chemical energy, making it an energy conversion reaction.