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Just observe the expression Q = m s T For a given amount of heat in joule ie Q constant and for a fixed mass ie m constant s namely specific heat capacity and Temperatrure change are inversely related Hence more the specific heat capacity then less or slow rise in temperature So water gets heated slowly compared to land
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
It is related to the specific nuclear reactor design including the nuclear fuel amount and the reactor control system and the energy extracting medium (coolant) capacity.
It is related to the specific nuclear reactor design including the nuclear fuel amount and the reactor control system and the energy extracting medium (coolant) capacity.
The temperature ... is related ... to the temperature? Please check the question and ask again.
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
No compound has a specific temperature related to it. The temperature of it is dictated by its surroundings mainly.
Just observe the expression Q = m s T For a given amount of heat in joule ie Q constant and for a fixed mass ie m constant s namely specific heat capacity and Temperatrure change are inversely related Hence more the specific heat capacity then less or slow rise in temperature So water gets heated slowly compared to land
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.
As an object is heated, the rate of increase in temperature is proportional to the rate of heat added. The proportionality is called the heat capacity. Because the heat capacity is actually a function of temperature in real materials, the total amount of energy added will be equal to the integral of the heat capacity function over the interval from the initial temperature to the final temperature. If you just assume an average heat capacity over the temperature range, then the rise in temperature will be exactly proportional to the amount of heat added.
It depends on the specific location or region. See related questions.
As an object is heated, the rate of increase in temperature is proportional to the rate of heat added. The proportionality is called the heat capacity. Because the heat capacity is actually a function of temperature in real materials, the total amount of energy added will be equal to the integral of the heat capacity function over the interval from the initial temperature to the final temperature. If you just assume an average heat capacity over the temperature range, then the rise in temperature will be exactly proportional to the amount of heat added.
An inability to contract related to a specific individual. For example, mental capacity, whether they are a minor or not, or intoxication.
The stored thermal energy in a certain body (or the stored heat if you like) is the product of its specific thermal capacity and the temperature difference between its temperature and ambient temperature (assuming the observer is at ambient). The specific thermal capacity is the specific heat per unit mass of its material times the mass, if there are different components of different materials you just add them arithmetically. The above works when there is no change of state, ie always a solid or a liquid or a gas. If there is a change of state, like water turning into steam, then there is also latent heat to include. Heat is due to particle motion as your question indicates, but we don't measure that directly.
heat does not effect specific heat. for example if water has a high specific heat, a change in heat wont effect its specific heat.P.S if you don't like my answer, please improve it.I like people who are honest.Heat is a form of energy. Heat either changes the state of matter from solid to liquid to gas OR it changes the temperature.Specific heat (also called specific heat capacity) is the amount of heat that a substance (like water) absorbs when exactly one gram of that substance is heated so that its temperature increases by one degree Celsius. The specific heat relates three quantities: the heat applied, the temperature change, and the mass of the object.An amount of heat may be 100 calories.The specific heat capacity allows us to calculate the temperature change for a quantity of a substance to which that heat is applied.Since the specific heat of water is 1 calorie per gram degree Celsius if 100 calories is applied to 50 grams of water then the temperature only changes 2 degrees Celsius.