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This is incorrect. Gases expand significantly when heated because the increase in temperature causes the gas particles to move faster and spread out, resulting in an increase in volume or pressure. This relationship is described by Charles's Law, which states that the volume of a gas is directly proportional to its temperature.
A discussion that can become heated is often referred to as a debate or argument. When emotions run high and tensions escalate, it may be described as a heated exchange or a contentious debate.
Higher, I suppose.
When a liquid is heated, its temperature will increase. As the temperature rises, the molecules in the liquid will gain more energy and move faster. Eventually, if the temperature is high enough, the liquid will reach its boiling point and turn into a gas.
Yes, gases generally expand when heated because the increase in temperature causes the gas molecules to move faster and spread out, increasing the volume they occupy. This relationship is described by the ideal gas law, which states that the volume of a gas is directly proportional to its temperature when pressure is constant.
Candles are made of wax, which has a melting point that is lower than the temperature at which candles burn. When a candle is heated, the wax begins to melt, causing the candle to lose its shape and potentially drip.
When an object begins to glow while heated, it is due to incandescence, which is the emission of electromagnetic radiation (often in the form of visible light) as a result of being heated to high temperatures. As the object's temperature increases, the atoms or molecules within the object gain energy, causing them to emit light as they return to a lower-energy state.
This is incorrect. Gases expand significantly when heated because the increase in temperature causes the gas particles to move faster and spread out, resulting in an increase in volume or pressure. This relationship is described by Charles's Law, which states that the volume of a gas is directly proportional to its temperature.
When heat is removed from a heated material, it begins to cool down. The molecules within the material lose kinetic energy, resulting in a decrease in temperature. As the temperature drops, the material may undergo physical changes, such as solidification or contraction, depending on its properties.
Yes, most liquids expand when heated because the heat causes the molecules within the liquid to move faster and spread out, increasing the overall volume. However, there are exceptions such as water, which expands when heated until it reaches a temperature of 4 degrees Celsius, at which point it begins to contract.
heated up to kindling temperature of the mild steel
The heated, then the room temperature, then the frozen ball. It's the heated because of how fast the molecules are moving. :)
When water is heated, the molecules gain energy and move faster, causing the temperature of the water to increase. As the temperature rises, water transitions from its liquid state to a gaseous state, turning into steam.
Undercooked describes foods that have not been heated to a safe temperature.
When an ice cube is heated, it absorbs heat energy and begins to melt, turning into liquid water. Continued heating will cause the water to further increase in temperature until it eventually turns into steam as it boils.
Heat just refers to increasing the temperature. The temperature range for a metal that is heated, theoretically speaking, only needs to be greater than 0 Kelvins.
Of course.