100 degrees!
Candle wax evaporates when the candle is burning because the heat from the flame causes the wax to melt and turn into a gas, which then evaporates into the air.
When a candle burns, the wax at the top of the candle melts and turns into liquid, which is then drawn up the wick by capillary action. This liquid wax vaporizes and mixes with oxygen in the air, producing a flame. The heat from the flame melts more wax, sustaining the process and allowing the candle to continue burning.
Hot candle wax is a liquid. When the wax is heated, it melts and transforms into a liquid form.
Candle wax is a solid at room temperature. When heated, it melts into a liquid form.
A wax candle can turn into a liquid when it is melted by heat. Once the melted wax cools down, it solidifies back into a solid state.
Candle wax evaporates when the candle is burning because the heat from the flame causes the wax to melt and turn into a gas, which then evaporates into the air.
Solid.
When a candle burns, the wax at the top of the candle melts and turns into liquid, which is then drawn up the wick by capillary action. This liquid wax vaporizes and mixes with oxygen in the air, producing a flame. The heat from the flame melts more wax, sustaining the process and allowing the candle to continue burning.
Hot candle wax is a liquid. When the wax is heated, it melts and transforms into a liquid form.
Candle wax is a solid at room temperature. When heated, it melts into a liquid form.
A wax candle can turn into a liquid when it is melted by heat. Once the melted wax cools down, it solidifies back into a solid state.
The change of state in a lit candle is from solid (wax) to liquid (molten wax) to gas (vaporized wax) as the heat from the flame melts the wax and turns it into vapor that burns, releasing heat and light.
The wax runs down the side of a candle because the heat from the flame melts the wax, causing it to flow and drip down. This effect is influenced by factors such as the type of wax, the size and shape of the candle, and the environment's temperature.
When a candle is lit, the solid wax melts and turns into liquid wax. As the candle burns, the liquid wax is drawn up the wick by capillary action and evaporates, creating a gas that then burns and produces heat and light.
Yes, candle wax will melt when heated because it has a low melting point. The heat causes the solid wax to turn into a liquid form that can then be used to create a candle's flame.
um...aren't cadles already made of wax?
Wax does not freeze at the top of a candle because the heat from the flame keeps the surrounding wax melted. The temperature of the melted wax remains above its freezing point due to the continuous heat generated by the burning wick. Additionally, as the wax melts, it circulates and maintains a consistent temperature throughout the candle, preventing it from solidifying at the surface.