The current drawn by a kettle can vary based on the power rating of the kettle. Typically, a kettle in the range of 1500-2000 watts would draw around 12-16 amps of current when operating at full power.
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.
A kettle typically uses electrical energy to heat water. When turned on, the electric current passes through a heating element in the kettle, which converts the electrical energy into heat energy that warms the 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.
Electric kettles have a high power rating, which means they draw a significant amount of current from the electrical circuit when in use. When the kettle is plugged in and turned on, it creates a heavy load on the circuit, causing an increase in current flow to the kettle to provide the necessary energy for heating the water.
Yes, a kettle is an example of convection. When the water is heated at the bottom of the kettle, it becomes less dense and rises to the top, while cooler water flows in to replace it. This creates a convection current that helps evenly distribute the heat and boil the water.
The formula you are looking for is V = IR where V = Voltage I = Current R = Resistance With some formula manipulation and numbers plugged in you get I = 120V / 9.6Ω I = 12.5A The kettle would have 12.5 volts of current running through it.
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.
A kettle typically uses electrical energy to heat water. When turned on, the electric current passes through a heating element in the kettle, which converts the electrical energy into heat energy that warms the water.
yes it is because u don`t use current for it
Electric kettles have a high power rating, which means they draw a significant amount of current from the electrical circuit when in use. When the kettle is plugged in and turned on, it creates a heavy load on the circuit, causing an increase in current flow to the kettle to provide the necessary energy for heating the 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.
Yes, a kettle is an example of convection. When the water is heated at the bottom of the kettle, it becomes less dense and rises to the top, while cooler water flows in to replace it. This creates a convection current that helps evenly distribute the heat and boil the water.
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.
Divide its power rating by its voltage rating. These ratings are found on its nameplate. For example, a 3-kW kettle rated at 230 V will draw a current of approx. 13 A.
-kettle -electric heater that's all i have! :)) When a current passes through a wire, the wire heats up. This is caused by the conversion of electrical energy into heat energy. /the heat produced depends on the resistance of the wire.
A kettle does not have a magnetic force on its own. However, since it is metal, it can attract a magnet.
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