When a substance has a low specific heat, it means that it requires less energy to change its temperature compared to substances with higher specific heat. As a result, it heats up and cools down more quickly when energy is added or removed. This property affects how substances respond to temperature changes and can impact various physical and environmental processes.
A substance with low specific heat capacity and low thermal conductivity would heat up most quickly because it requires less energy to raise its temperature and does not distribute heat effectively. Materials like metals and low-density liquids generally heat up quickly compared to dense solids with high specific heat capacities.
Specific heat capacity is the amount of energy required to increase the temperature of an object or substance by 1oK. The rate at which something cools is proportional to the difference in temperature between the object and its surroundings. Consequently, neither has any relation to the other.
a. Substance with low specific heat capacity is easy to change temperature because it requires less energy to increase its temperature. e. None of the above. The ease of changing the temperature of a substance depends on its specific heat capacity, not on its massiveness or brittleness.
Whether or not a substance is a conductor is not an indicator of its specific heat. This applies to either an electrical conductor or a thermal conductor. There is generally no direct correlation between a substance's ability to conduct electricity or heat and the specific heat of that substance.
Substances with a low specific heat capacity will experience the greatest increase in temperature when 100g of heat is added. This means that metals like copper or aluminum, which have low specific heat capacities, will increase in temperature the most compared to substances like water or sand which have higher specific heat capacities.
A substance with a low heat capacity.A substance with a low heat capacity.A substance with a low heat capacity.A substance with a low heat capacity.
A low specific heat means the substance heats up faster, as it requires less energy to raise its temperature. Conversely, a substance with a high specific heat requires more energy to raise its temperature, so it heats up more slowly.
An example of a substance with low specific heat is metal, such as iron or aluminum. These materials heat up quickly when exposed to heat and cool down quickly as well, due to their low specific heat capacity.
A substance that heats up quickly has a low specific heat capacity, while a substance that heats up slowly has a high specific heat capacity. This is because substances with high specific heat capacities require more energy to change temperature compared to substances with low specific heat capacities.
A substance that cools down quickly has a low specific heat capacity. This means that it requires less energy to change its temperature compared to a substance with a high specific heat capacity which cools down more slowly.
A substance with a very low specific heat will heat up and cool down quickly. Examples include metals like copper or aluminum, which have low specific heat capacities compared to water. This property allows these substances to quickly absorb and release heat energy.
Substances with low specific heat have the ability to heat up or cool down quickly with a small amount of energy. Common examples include metals like copper and aluminum, which have low specific heat compared to substances like water.
I think slowly because a substance that heats up quickly have a high specific heat capacity. i think slowly Specific heat is that amount of energy needed to raise a unit mass by a unit temperature. If something has a high specific heat, it means it needs a lot of energy to heat up, meaning slow.
The specific heat capacity of a substance is the amount of energy required to increase the temperature of a said substance 1o K. The capacity is measured in kilojoules divided by kilogram time degrees Kelvin (kJ/Kg k). So, if the specific heat capacity of a substance is high, it requires a very large amount of energy to increase the temperature, and if it has a low specific heat capacity, the required energy will be lower.
A substance that has a low specific heat needs less heat to increase its temperature. In other words under a constant heat flux it will heat or cool more quickly than the higher specific heat substances.
A substance with low specific heat capacity and low thermal conductivity would heat up most quickly because it requires less energy to raise its temperature and does not distribute heat effectively. Materials like metals and low-density liquids generally heat up quickly compared to dense solids with high specific heat capacities.
Specific heat capacity is the amount of energy required to increase the temperature of an object or substance by 1oK. The rate at which something cools is proportional to the difference in temperature between the object and its surroundings. Consequently, neither has any relation to the other.