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Why the heating element of an electric kettle is not placed in the middle of the kettle?
Placing the heating element at the bottom of the kettle allows heat to be directly transferred to the water, resulting in quicker and more uniform heating. If the heating element were in the middle, the water at the top of the kettle would take longer to heat up and there could be hot spots in the water.
How does a kettle become hot?
A kettle becomes hot by converting electrical energy into heat through a heating element inside the kettle. When the kettle is plugged in and turned on, the electrical current flows through the heating element, which generates heat that warms the water inside the kettle.
How does a kettle produce heat?
A kettle produces heat by converting electrical energy into heat energy through a heating element, usually made of metal. When the kettle is turned on, the heating element heats up, warming the water inside the kettle through conduction.
What heat occurs inside the kettle?
When a kettle is turned on, an electric current passes through the heating element, causing it to heat up. The heat generated by the heating element is then transferred to the water in the kettle through conduction, raising the temperature of the water until it reaches boiling point.
How does an electric kettle heat up water?
An electric kettle heats up water by using an electric heating element located at the bottom of the kettle. When the kettle is plugged in and turned on, the electric current passes through the heating element, generating heat. This heat transfers to the water, causing it to heat up and eventually boil.
What energy transformation in kettle?
In a kettle, electrical energy is transformed into thermal energy through the process of resistive heating. The heating element inside the kettle uses the electrical energy to generate heat, which raises the temperature of the water inside the kettle.
Why is the heating element in an electric kettle positioned very close to the bottom of the kettle?
The heating element is positioned close to the bottom of the electric kettle to ensure efficient transfer of heat to the water. Placing it near the bottom helps heat the water evenly and quickly, leading to faster boiling times. Additionally, it helps prevent damage to the kettle by keeping the element submerged in water at all times.
Does the wire in the electrical cord of an electric kettle have a higher or lower resistance than the heating element inside the kettle?
The wire in the cord has much lower resistance than the heating element. The heating element is a resistive or resistance heating element. Resistance in the quality of a substance or material that causes it to limit current flow, and it get heated up in the process. The heating element has all but the smallest fraction of the resistance in the circuit, so the heat, that thermal energy that get the water hot, is generated by the resistance of the heating element.
How does conduction in a kettle work?
In a kettle, conduction occurs when heat energy is transferred from the heating element to the water through direct contact. The material of the kettle, usually metal, allows the heat to conduct through it and into the water, causing the water to heat up. The heating element inside the kettle is responsible for providing the initial heat energy that starts the conduction process.
In an electric kettle water becomes hot by?
In an electric kettle, water becomes hot by using a heating element that heats up when the kettle is turned on. The heating element transfers heat to the water, raising its temperature until it reaches boiling point.
Why is nichrome used in the heating element an electric kettle?
someone pls say the answer to this cuz i need it ;-;
How does an electric kettle work to heat water efficiently and quickly?
An electric kettle works by using a heating element to quickly heat water. When the kettle is turned on, electricity flows through the heating element, which generates heat. The heat is transferred to the water, causing it to heat up rapidly. The design of the kettle allows for efficient heat transfer, resulting in fast boiling times.
