The middle of the wire gauze turns red hot first because that is where the flame is most concentrated due to its design. The wire gauze allows for more efficient heat transfer and concentration of the flame's heat energy in the center.
Actually wire gauze will burn when heated. I think you may instead be asking "Why will a flame not propagate beyond a wire mesh." But the answer to your question is: "A wire gauze WILL burn under appropriate heat."
This depends on your specific application !
A flame is not extinguished when a wire gauze is placed on top of it because the flame is still exposed to oxygen. The gauze has holes, through which oxygen can flow. Additionally, oxygen can reach the flame from under the gauze. Consequently, the flame is not extinguished.
The wire gauze provides a barrier between the ice and direct heat, preventing efficient heat transfer to melt the ice completely. Instead, the heat is dispersed more evenly across the surface of the ice, causing it to melt slowly. This phenomenon is due to the wire gauze acting as a thermal insulator.
Wire gauzes with absorbent center are used in laboratory for heating, for example a beaker with liquid.
it prevents the heat of the apparatus directly. the circle thing on the wire gauze ensures that the heat is spread everywhere
A wire gauze is a mesh made from wire, and is basically used as a filter or s sieve.
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THE SUBSTANCE IS CALLED ASBESTOS
The middle of the wire gauze turns red hot first because that is where the flame is most concentrated due to its design. The wire gauze allows for more efficient heat transfer and concentration of the flame's heat energy in the center.
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Generally it is used with a ring stand and a ring. The wire gauze is placed on the rind, a beaker or flask is placed on the gauze, and heat is applied by a Bunsen burner.
Asbestos was commonly used in wire gauze as a fireproofing material in the past. Types of asbestos that may be found in wire gauze include chrysotile, amosite, and crocidolite. However, it is important to note that the use of asbestos in products like wire gauze has significantly decreased due to health concerns.
The energy change when a wire gauze is heated with a Bunsen burner is primarily in the form of thermal energy. The burner heats up the wire gauze, causing an increase in its temperature. This increase in temperature represents a transfer of thermal energy from the burner to the wire gauze.
The mat is called a wire gauze or a ceramic center. It helps to distribute the heat evenly and protect the glassware placed on top of the Bunsen burner from direct heat.
It is sort of like a fabric, just made of wire.