Electrical Energy.
When a copper wire is connected to two ends of battery, the electrons on the -ve terminal (with excess of electrons) move to +ve terminal (electron deficit terminal) to maintain an equlilbrium, hence the energy created by these movement of 'electrons' is called 'electrical' energy
A battery is a chemical source of energy that produces direct current, DC. Some are rechargeable; some are not.
Chemical energy can be converted into electrical energy through a chemical reaction in a battery. When the battery is connected to a circuit, the reaction releases electrons, which flow through the circuit as an electric current, producing electrical energy.
Batteries store chemical energy through the electrochemical reactions happening inside them. When the battery is charged, energy is stored by converting electrical energy into chemical energy by moving ions between the battery electrodes. This chemical energy is then converted back into electrical energy when the battery is used to power a device.
Chemical energy in a battery is converted to electrical energy through a chemical reaction that occurs within the battery. The reaction causes a flow of electrons between the battery's two terminals, generating an electric current. This current can then be used to power electronic devices.
A battery is a form of chemical energy because it relies on chemical reactions within the battery to produce and store electrical energy. When the battery is in use, these chemical reactions generate electrons that flow through a circuit, producing the electrical energy that powers devices.
By connecting a bulb to the battery.
The battery provides the current and the energy; the lamp consumes the energy when the current goes through it; the copper wire conducts the current; and the switch lets you close or open the circuit (so that current passes, or doesn't pass, through).
Any number of ways. If you're looking for an example then connecting a battery to an electric motor would do. Chemical energy in the battery is changed to electrical energy in the circuit, which the motor then converts to kinetic energy.
A circuit with five resistors and a battery is constructed by connecting the resistors in series or parallel to create a closed loop for the flow of electric current from the battery through the resistors. The battery provides the energy for the current to flow through the resistors, which resist the flow of current. The arrangement of the resistors and the battery determines the overall resistance and current flow in the circuit.
Energy is transferred from the battery to the bulb of a torch or flashlight through a closed circuit. When the battery is connected to the bulb, it provides electrical energy to the filament in the bulb, which then converts the electrical energy into light energy through the process of electrical resistance. This light energy is what produces the glow in the bulb.
Electrical energy.
Battery energy can travel through electrical circuits, wires, and conductive materials to power electronic devices and systems. It is typically used to transfer energy from the battery to the component being powered.
Kinetic energy is not stored in a battery. Instead, a battery stores and releases electrical energy through chemical reactions. When a battery is charged, chemical energy is converted into electrical energy. When the battery is used, the stored electrical energy is released to power devices.
In a battery, energy transfer occurs through a chemical reaction that converts stored chemical energy into electrical energy. This energy is then transferred to power devices or systems connected to the battery.
through sound energy
To make a simple electric motor, you will need a battery, copper wire, a magnet, and a base to hold the motor. By winding the copper wire around the base and connecting it to the battery, you create an electromagnet. When the base is placed between the poles of the magnet, the electromagnet will interact with the magnetic field to spin the motor. This simple motor demonstrates how electrical energy can be converted into mechanical motion.
Energy is transferred from a personal audio player to its earphones through electrical signals. The audio player converts stored energy (from a battery or power source) into electrical signals that travel through connecting wires to the earphones. The earphones then receive the electrical signals, converting them back into sound energy that can be heard by the listener.