Static electricity occurs when a sock is stuck to a blanket coming out of the dryer. This happens when two materials rub against each other, causing electrons to transfer and create a build-up of opposite charges. The sock and the blanket then attract each other due to their opposite charges.
In a hair dryer, electrical energy is converted into thermal energy (heat) by a heating element. The fan inside the hair dryer then transfers this thermal energy to the air, which then blows out heat to dry and style the hair.
Mechanical energy from the spinning drum and heating element is transformed into thermal energy to dry the clothes.
A hair dryer begins with electrical energy & converts into heat energy as well as kinetic energy!
A hair dryer converts electrical energy into thermal energy. When the hair dryer is turned on, electricity flows through a heating element, which generates heat that is then blown out of the dryer to dry the hair.
Electrical energy in a hair dryer is transformed into heat energy, which is used to dry and style hair by evaporation of water. The heating element within the hair dryer converts the electrical energy into thermal energy, which is then transferred to the air blown out of the dryer.
electrical to heat and mechanical
electrical to heat and mechanical
In a hair dryer, electrical energy is converted into thermal energy (heat) by a heating element. The fan inside the hair dryer then transfers this thermal energy to the air, which then blows out heat to dry and style the hair.
Mechanical energy from the spinning drum and heating element is transformed into thermal energy to dry the clothes.
You can put a blanket in the dryer for a minute and then cover the puppy to keep it warm.
A hair dryer begins with electrical energy & converts into heat energy as well as kinetic energy!
A hair dryer converts electrical energy into thermal energy. When the hair dryer is turned on, electricity flows through a heating element, which generates heat that is then blown out of the dryer to dry the hair.
Electrical energy in a hair dryer is transformed into heat energy, which is used to dry and style hair by evaporation of water. The heating element within the hair dryer converts the electrical energy into thermal energy, which is then transferred to the air blown out of the dryer.
A clothes dryer converts electrical energy into heat energy to dry wet clothes.
In a clothes dryer, electrical energy is transformed into heat energy. The heated air inside the dryer helps evaporate the water from the wet clothes, drying them in the process.
A hair dryer converts electrical energy into thermal energy. The electric current flowing through the hair dryer's heating element causes it to heat up, transferring thermal energy to the surrounding air which dries the hair.
A hair dryer typically uses electrical energy to convert it into heat energy and mechanical energy to blow hot air.