When you iron damp clothing, the heat from the iron causes the water in the clothing to evaporate. This process requires energy, which is transferred from the hot iron to the water in the clothing. The energy transfer allows the water to change from a liquid to a gas state, resulting in dry clothing.
Ironing clothes involves primarily conduction heat transfer. The iron's heated plate comes into direct contact with the fabric, causing thermal energy to transfer from the iron to the clothing fibers.
An iron produces thermal energy, which is used to heat the iron plate to remove wrinkles from clothing by transferring heat to the fabric.
An iron transfers heat through conduction. When the iron's hot plate comes into contact with clothing, the heat is transferred from the iron to the fabric through direct contact.
When an iron is plugged in, electrical energy is converted into thermal energy through the Joule heating effect. This thermal energy heats up the iron's soleplate, allowing it to transfer heat to clothes and remove wrinkles during ironing.
Yes, transfer of energy from an iron to a shirt is an example of conduction. Conduction is the process of heat transfer through direct contact between objects at different temperatures. In this case, heat is transferred from the hot iron to the cooler shirt through direct contact.
Ironing clothes involves primarily conduction heat transfer. The iron's heated plate comes into direct contact with the fabric, causing thermal energy to transfer from the iron to the clothing fibers.
An iron produces thermal energy, which is used to heat the iron plate to remove wrinkles from clothing by transferring heat to the fabric.
An iron transfers heat through conduction. When the iron's hot plate comes into contact with clothing, the heat is transferred from the iron to the fabric through direct contact.
When an iron is plugged in, electrical energy is converted into thermal energy through the Joule heating effect. This thermal energy heats up the iron's soleplate, allowing it to transfer heat to clothes and remove wrinkles during ironing.
Yes, transfer of energy from an iron to a shirt is an example of conduction. Conduction is the process of heat transfer through direct contact between objects at different temperatures. In this case, heat is transferred from the hot iron to the cooler shirt through direct contact.
Iron can undergo a chemical reaction with oxygen in a damp atmosphere, forming iron oxide (rust). This process is known as corrosion, which weakens the iron material and eventually leads to degradation. Regular maintenance and protective coatings can help prevent iron from rusting in damp conditions.
In heat.Because iron absorbs heat.
It is conduction, heat transfer where 2 objects touch, because the waffle iron and the waffle are touching. (and it can't be radiation or convection.)
Useful energy in an electrical iron is the electrical energy that is converted into heat to press clothes effectively. Wasted energy in an electrical iron is the energy lost as heat to the surroundings due to inefficiencies in the heating element and insulation.
graphic tee shirts and cheap shirts with iron on transfer could irritate a child's skin
oh man, did you skip the high school??:)of course it does transfer the iron
transfer