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What is an example of the energy transformation chemical to electric?
An example of energy transformation from chemical to electric is in a battery. In a battery, chemical energy stored in the electrodes is converted into electrical energy when the circuit is completed and electrons flow from the anode to the cathode, creating an electrical current.
What substances make up the two electrodes in a car battery?
I believe it is Sulfuric Acid and Distilled Water Its actually lead and sulfuric acid
How is a battery mechanical energy?
A battery contains chemical energy stored in the form of electrolytes and electrodes. When a circuit is completed, these chemicals undergo a chemical reaction that releases electrons, creating an electrical current. This flow of electrons is then converted into mechanical energy in devices such as motors or actuators.
How many electrodes does a alkaline battery contain?
The two electrodes of the alkaline battery are zinc and manganese dioxide. Zinc is the anode, or the electrode that becomes negatively charged due to the electrolyte. Manganese dioxide is the cathode, or the electrode that becomes positively charged.
An alkaline battery converts what forms of energy into electrical energy?
An alkaline battery converts chemical energy stored in its electrolytes into electrical energy by enabling a chemical reaction to occur between the electrodes.
What uses chemical reactions to create an electrical current?
A battery uses chemical reactions to create an electrical current. This occurs through the movement of ions between two electrodes (anode and cathode) in the battery, generating a flow of electrons that can be used as electrical power.
What type of stored energy does a battery contain?
A battery stores chemical energy that is converted into electrical energy when needed. This chemical energy is generated through the reaction between the battery's positive and negative electrodes.
What is the energy transformation of the inside of a battery?
Inside a battery, chemical energy is converted into electrical energy as a result of chemical reactions occurring between the electrodes and electrolyte. When the battery is connected to a circuit, this electrical energy is then transformed into another form, such as light in a flashlight or kinetic energy in a motor.
Can you explain how a battery works and the process by which it generates and stores electrical energy?
A battery works by converting chemical energy into electrical energy. Inside a battery, there are two electrodes (usually made of different metals) immersed in an electrolyte solution. When the battery is connected to a circuit, a chemical reaction occurs at the electrodes, causing electrons to flow from one electrode to the other through the circuit, generating electrical energy. This flow of electrons creates a potential difference, or voltage, which can be used to power devices. When the battery is being charged, the process is reversed, and electrical energy is used to drive the chemical reaction, storing energy for later use.
How does the presence of ionic electrical conductivity affect the overall performance of a battery?
The presence of ionic electrical conductivity in a battery allows for the flow of ions between the electrodes, which is essential for the battery to function properly. Higher ionic conductivity can lead to faster charging and discharging rates, as well as improved overall performance and efficiency of the battery.
Device that produces an electric current by converting chemical energy into electrical energy?
A battery is a device that produces an electric current by converting chemical energy into electrical energy. This process involves the movement of ions between electrodes within the battery, generating a flow of electrons through a circuit.
What is a battery end called?
Electrodes... Positive (anode) and Negative (cathode) electrodes which are attached to the terminals. The electrodes provide the chemical energy which is converted to a flow of electrons. And the electrolyte, the electrolyte separates the electrodes but allows for the passages of electrons and ions for the electro-chemical reaction of the electrodes.
