No; it is more like a measure of the average energy per particle.
Sort of. Temperature can be thought of as a measure of the average thermal energy per particle.
Assuming that you mean heat to be the internal energy of a system or object. Than temperature is a method to measure this. The second law of thermodynamics clearly shows the relation: dQ = TdS where Q is the change of heat in a system T is the temperature S is the change of entropy, which can never decrease per definition
Endothermic change is a chemical reaction that is accompanied by the absorption of heat, or it is an organism that generates heat to maintain its temperature. When a chemical reaction occurs, energy is transferred to, or from, the surroundings. There is often a temperature change. An example would be that of a bonfire which transfers heat energy to the surroundings.
That depends on what you are trying to ask.First point is that heat is energy in transit - if it isn't moving from one place to another it's technically not heat. Thermal energy - the energy held by a mass due to temperature is a better term, but even that is a bit ambiguous.With that in mind...if you mean how much energy can be stored as thermal energy by aluminum, you would have to look up the heat capacity - which is approximately 0.91 kJ/kg K (the exact value depending on temperature and purity of the aluminum)If you mean how much resistance aluminum foil can provide to the transfer of heat, that would depend on the temperature gradient and how shiny the aluminum was - shiny aluminum will reflect more heat that dull/burnished aluminum surfaces.
Specific heat capacity is the amount of energy or heat (q) required to raise the temperature of 1 gram of substance 1 degree Celsius. from the equation q = mc(Tf-Ti) q = energy / heat and is in joules (J) m = mass of in grams (look at periodic table for mass (g) per 1 mole of element) c = specific heat, for example water is 4.184 J/g*C Tf = Final temperature in *C Ti = Initial Temperature in *C
Higher temperatures mean more heat energy which translates into more kinetic energy of the molecules of nitrogen gas. This greater kinetic energy allows the molecules to diffuse faster than at a lower temperature and lower kinetic energy.
Assuming that you mean heat to be the internal energy of a system or object. Than temperature is a method to measure this. The second law of thermodynamics clearly shows the relation: dQ = TdS where Q is the change of heat in a system T is the temperature S is the change of entropy, which can never decrease per definition
We have all noticed that when you heat something up, its temperature rises. Often we think that heat and temperature are the same thing. However, this is not the case. Heat and temperature are related to each other, but are different concepts. Heat is the total energy of molecular motion in a substance while temperature is a measure of the average energy of molecular motion in a substance. Heat energy depends on the speed of the particles, the number of particles (the size or mass), and the type of particles in an object. Temperature does not depend on the size or type of object. For example, the temperature of a small cup of water might be the same as the temperature of a large tub of water, but the tub of water has more heat because it has more water and thus more total thermal energy. It is heat that will increase or decrease the temperature. If we add heat, the temperature will become higher. If we remove heat the temperature will become lower. Higher temperatures mean that the molecules are moving, vibrating and rotating with more energy. If we take two objects which have the same temperature and bring them into contact, there will be no overall transfer of energy between them because the average energies of the particles in each object are the same. But if the temperature of one object is higher than that of the other object, there will be a transfer of energy from the hotter to the colder object until both objects reach the same temperature. Temperature is not energy, but a measure of it. Heat is energy in short heat is the cause and temperature it's effect.........
I'm assuming you mean immediately after going from solid to liquid. 0 degrees centigrade, 32 degrees Fahrenheit. It is the same temperature as when it was a solid because all the heat energy the ice absorbed went into the phase change.
Heat energy is measured in joules (newton-meters), which are also a unit of work.The calorie is a mostly-superseded unit equal to 4.2 joules, while the "food energy" calorie is actually a kilocalorie (1000 calories).Units of temperature are a related value, indicating the relative contained heat energy. The units of temperature are the kelvin / degree Celsius and the different interval, the degree Fahrenheit. Classically, adding 1 mean calorie of heat energy would raise the temperature of 1 gram of water by 1 degree Celsius.
If you mean temperature, there is no direct conversion, since temperature and energy are really different things. A formula that relates the two is the one that basically defines specific heat: heat energy = mass x (temperature difference) x (specific heat)
Temperature is the correct spelling.The correct spelling is temperature (measured heat energy of an object or system).m,you mean temperature?
If there is a large temperature difference, more heat will be transferred. Depending on the situation, this may mean more energy loss.
Temperature is defined as the average total kinetic energy per particle in a system. In common terms, it means how hot or cold something is or feels, usually expressed as relative to an arbitrary point (e.g. water freezes at 0oC and this is normally called a "cold" temperature; the human body is around 37oC and this is sometimes considered "warm" or "hot"). Temperature is the measure of hotness expressed in terms of any of several arbitrary scales, such as Fahrenheit, Celsius, or Kelvin. "Heat flows from a hotter body to a colder one and continues to do so until both are at the same temperature. Temperature is a measure of the average energy of the molecules of a body, whereas heat is a measure of the total amount of thermal energy in a body."
Temperature is defined as the average total kinetic energy per particle in a system. In common terms, it means how hot or cold something is or feels, usually expressed as relative to an arbitrary point (e.g. water freezes at 0oC and this is normally called a "cold" temperature; the human body is around 37oC and this is sometimes considered "warm" or "hot"). Temperature is the measure of hotness expressed in terms of any of several arbitrary scales, such as Fahrenheit, Celsius, or Kelvin. "Heat flows from a hotter body to a colder one and continues to do so until both are at the same temperature. Temperature is a measure of the average energy of the molecules of a body, whereas heat is a measure of the total amount of thermal energy in a body."
Do you mean dos? And if u do read below...You cannot measure heat directly, but you can detect its effect on a substance. Changes in heat can usually be detected as changes in temperature. Usually, when you add energy to a bunch of atoms they move faster and get hotter. Similarly, if you remove energy from a bunch of atoms, they usually move less and get cooler.Figure P1 aColdFigure P1 bWarmFigure P1 cHotBecause adding heat energy usually results in a temperature rise, people often confuse heat and temperature. In common speech, the two terms mean the same: "I will heat it" means you will add heat; "I will warm it up" means you will increase the temperature. No one usually bothers to distinguish between these.Figure P2aChanging TemperatureAdding heat, however, does not always increase the temperature. For instance, when water is boiling, adding heat does not increase its temperature. This happens at the boiling temperature of every substance that can vaporize. At the boiling temperature, adding heat energy converts the liquid into a gas WITHOUT RAISING THE TEMPERATURE.Figure P2bConstant TemperatureAdding heat to a boiling liquid is an important exception to general rule that more heat makes a higher temperature. When energy is added to a liquid at the boiling temperature, its converts the liquid into a gas at the same temperature. In this case, the energy added to the liquid goes into breaking the bonds between the liquid molecules without causing the temperature to change. The same thing happens when a solid changes into liquid. For instance, ice and water can exist together at the melting temperature. Adding heat to an ice-water slush will convert some of the ice to water without changing the temperature. In general, whenever there is a change of state, such as the solid-liquid or the liquid-gas transition, heat energy can be added without a temperature change. The change of state requires energy, so added energy goes into that instead of increasing the temperature.
In SI units, temperature is measured in Kelvin (K), and when people record the "heat" (such as how warm a room is, etc.) they usually mean temperature. If you mean heat in the strict scientific sense, you're talking about a transfer of energy, and energy has SI units of Joules.
Endothermic change is a chemical reaction that is accompanied by the absorption of heat, or it is an organism that generates heat to maintain its temperature. When a chemical reaction occurs, energy is transferred to, or from, the surroundings. There is often a temperature change. An example would be that of a bonfire which transfers heat energy to the surroundings.