yes
No. Steam is the gaseous form of water, and is invisible. The cloud of white stuff you can see above a boiling kettle is water vapor; droplets formed by the condensation of the steam as it collides with the cooler air outside the kettle.
The steam forms a shapeless cloud over the spout of the kettle when the water boils.
Inside the kettle, the water is being heated by an electric element or flame. As the water absorbs heat, its temperature rises and eventually reaches the boiling point, causing it to turn into steam. The pressure from the steam builds up inside the kettle until it forces the steam out through the spout, producing the whistling sound characteristic of a boiling kettle.
Kettle
First of all, there are many different types of kettles sold and some kettles function differently from others. Traditionally a kettle will know when to release steam due to the kinetic energy/movement of steam, within the kettle. It will then release the steam so that it is not trapped inside. However, there is also a different type of way of how a kettle will know when to release steam. Nowadays, this method is becoming more popular with newer kettles. A kettle will release steam once the kettle reaches a certain temperature and this is due to the heat energy of the kettle. Heat causes steam and so these newer kettles will still be able to release amounts of steam. Some people say that they prefer the method of the heat energy of the kettle instead of the movement of the steam and that it is much more efficient. Ultimately, a kettle will know when to release steam, either by the kinetic energy of the steam inside the kettle, or by the heat energy of the kettle.
Yes, when water boils inside a kettle, steam is formed and it comes out of the spout.
steam is created by vaporisation of the water on the ground or in a kettle.
steam comes out to release the energy of the kettle becauseof the heat is producing.
When water boils in a kettle, it reaches its boiling point and turns into steam. This is caused by the heat energy applied to the water that overcomes the intermolecular forces holding the water molecules together. The steam rises, creating bubbles and a hissing sound, and the water changes from a liquid to a gas state.
heat rises....
The molecules of steam in a kettle have high kinetic energy due to heat, causing them to move rapidly and collide with the walls of the kettle. These collisions create pressure as the molecules transfer momentum to the kettle walls. When the pressure inside the kettle exceeds the atmospheric pressure, the steam escapes as a jet through the spout.
Kettle steam is not a gas; it is actually water vapor. Water vapor is the gaseous phase of water when it reaches a temperature at which it evaporates.