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When the same quantity of heat is added per unit as does a substance having a lower specific heat warm more or less than a substance having a higher specific heat?
A substance with a lower specific heat will warm more than a substance with a higher specific heat when the same quantity of heat is added. This is because substances with lower specific heat require less energy to increase their temperature compared to substances with higher specific heat.
When heating two substance with same heat the temperature raises on two substance are different why?
Each substance has a different heat capacity, which means they need different amounts of energy to change temperature by the same amount (for a given mass). If the same amount of energy is input, then the temperature difference will also be different.
Why same amount of heat supplied to same amount of different substances does not produce the same increase in temperature?
There is a formula in physics ΔQ=m*c*ΔT, where m is the mass of the substance you are heating, ΔQ is the heat you supply to the substance, c is the specific heat which has a different value for different substances and ΔT is the change in temperature. If your substances are different and they have the same mass then by supplying the same amount of heat the change in temperature will be different.
Are temperature and thermal heat the same thing?
Temperature and thermal heat are related but not the same. Temperature is a measure of the average kinetic energy of particles in a substance, while thermal heat is the total amount of internal energy contained in a substance due to the movement of its particles. Temperature is a specific measurement, while thermal heat reflects the overall energy content of a substance.
Which has the greater specific heat capacity- an object that cools quickly or an object of the same mass that cools more slowly?
The object that cools more slowly would have the greater specific heat, because the amount of heat that is needed to raise the temperature of it one degree is less than the amount of heat needed to raise the temperature of the first object one degree. i.e. the object that cools quickly does so because it doesn't need a lot of heat to increase the temperature of it by one degree and the one that cools more slowly does so because it needs more heat to increase the temperature of it by one degree.
The specific heat of substance A is greater than that for substance B If both sample sizes are the same and they both start at the same temperature and equal amounts of heat are added to both these s?
The specific heat of substance A is greater than that for substance B. If both sample sizes are the same and they both start at the same temperature and equal amounts of heat are added to both these samples, substance A will have a lower temperature than substance B.
When the same quantity of heat is added per unit as does a substance having a lower specific heat warm more or less than a substance having a higher specific heat?
A substance with a lower specific heat will warm more than a substance with a higher specific heat when the same quantity of heat is added. This is because substances with lower specific heat require less energy to increase their temperature compared to substances with higher specific heat.
When heating two substance with same heat the temperature raises on two substance are different why?
Each substance has a different heat capacity, which means they need different amounts of energy to change temperature by the same amount (for a given mass). If the same amount of energy is input, then the temperature difference will also be different.
Suppose a fixed number of joules of energy as heat is added to 1 kg of substances listed below. Which substance will the rise in temperature be the least?
The substance with the highest specific heat capacity will experience the smallest rise in temperature with the same amount of heat energy added. Water has the highest specific heat capacity among common substances, so it will experience the least rise in temperature when a fixed amount of energy is added.
Why same amount of heat supplied to same amount of different substances does not produce the same increase in temperature?
There is a formula in physics ΔQ=m*c*ΔT, where m is the mass of the substance you are heating, ΔQ is the heat you supply to the substance, c is the specific heat which has a different value for different substances and ΔT is the change in temperature. If your substances are different and they have the same mass then by supplying the same amount of heat the change in temperature will be different.
Are temperature and thermal heat the same thing?
Temperature and thermal heat are related but not the same. Temperature is a measure of the average kinetic energy of particles in a substance, while thermal heat is the total amount of internal energy contained in a substance due to the movement of its particles. Temperature is a specific measurement, while thermal heat reflects the overall energy content of a substance.
Why does specific heat has the same numerical value in metric and british systems?
Specific heat is dimensionless, and dimensionless units have the same value in any system. Specific heat is the ratio between two densities - that of the substance considered, and that of water. The ratio of two quantities of the same dimension will naturally be a dimensionless number.
Which has the greater specific heat capacity- an object that cools quickly or an object of the same mass that cools more slowly?
The object that cools more slowly would have the greater specific heat, because the amount of heat that is needed to raise the temperature of it one degree is less than the amount of heat needed to raise the temperature of the first object one degree. i.e. the object that cools quickly does so because it doesn't need a lot of heat to increase the temperature of it by one degree and the one that cools more slowly does so because it needs more heat to increase the temperature of it by one degree.
When you apply the same amount of heat 5 grams of water and 5 grams of the water the temperature of the limit increases more than the water what can you conclude?
If you apply the same amount of heat to 5 grams of water and 5 grams of another substance, and the temperature of the other substance increases more than that of the water, you can conclude that the other substance has a lower specific heat capacity than water. Specific heat capacity is the amount of heat required to raise the temperature of a substance, so a lower value means that it requires less energy to achieve the same temperature increase.
How does a substance with low specific heat cool down or heat up?
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.
You apply the same amount of heat to five grams of substance a and five grams of substance b the temperature of both substances increase by the same amount what can you conclude?
You can conclude that both substances have the same specific heat capacity. This means that they require the same amount of energy to change their temperature by a certain amount.
Is specific heat the same as specific gravity?
No. Specific heat is the amount of heat required to raise 1 kg of material by 1 K at constant pressure, while specific gravity is the ratio of the material's density to a reference density (typically water).
