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When heat is removed from steam, it begins to condense into water. As the temperature decreases, the steam molecules lose energy, causing them to come closer together and transition from a gaseous state to a liquid state. This process releases latent heat, which can be felt as warmth in the surrounding environment. If enough heat is removed, the water can eventually cool further and freeze into ice.
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What would happen if a large clump of ice is placed into a beaker and heated to at least 1000C?
The ice would first melt into water at 0°C, and then the water would heat up until it reached 100°C, at which point it would start to boil into steam. The energy required to convert ice to water and then water to steam is significant due to the heat of fusion and heat of vaporization of water.
What is total heat of steam?
The total heat of steam, also known as enthalpy of steam, is the amount of heat required to raise the temperature of water to its boiling point and then convert it into steam without changing its temperature. It is the sum of sensible heat and latent heat of vaporization.
In a household radiator G of steam at 100. C condenses. How much heat is released?
The heat released when steam condenses can be calculated using the latent heat of vaporization. For water, the latent heat of vaporization is approximately 2260 kJ/kg. Therefore, if you know the mass of the steam condensing, you can calculate the heat released by multiplying the mass (in kg) by 2260 kJ/kg. For example, if 1 kg of steam condenses, it would release about 2260 kJ of heat.
How many joules of energy are necessary to heat the steam from 100.0 AC to 114.0 AC if the specific heat of steam is 2.01 Jg AC?
To calculate the energy required to heat the steam, you need to use the formula: Q = mcΔT, where Q is the energy, m is the mass of the steam, c is the specific heat, and ΔT is the change in temperature. Given that the specific heat of steam is 2.01 J/g°C and the temperature change is 14.0°C, you would need to know the mass of the steam in order to calculate the total energy required.
How is a steam burn an example of latent heat?
A steam burn is an example of latent heat, because beside the heat released by the steam itself, a part of it condenses, turning into water, which in turn releases heat too.
What happen if you heat steam?
If you heat steam under pressure you get "superheated steam" under higher than original pressure
What would happen if a large clump of ice is placed into a beaker and heated to at least 1000C?
The ice would first melt into water at 0°C, and then the water would heat up until it reached 100°C, at which point it would start to boil into steam. The energy required to convert ice to water and then water to steam is significant due to the heat of fusion and heat of vaporization of water.
What has to happen to nuclear before it cam be used to generate electricity?
The nuclear reaction produces heat The heat is used to make steam The steam makes the turbines spin The turbines make electricity
Does a steam trap remove condensate?
water receives heat to become vapour thus carrying energy . water is mainly used because it is plentiful and has very high latent heat of vapourisation which absorbs a hell lot of heat during evaporation. here heat energy is converted into pressure energy during heating formation of steam and then expanded in turbines or let out to get kinetic energy as the output.
The use of fan situated in a microwave oven?
To remove steam and heat from the microwave produced in the cooking process.
Why steem do not send to the boiler insuded of condenser?
In a typical steam system, steam is directed to the condenser instead of the boiler to remove heat and condense it back into water for reuse. Sending steam to the boiler would be inefficient, as it would require additional energy to convert the water back into steam again. The condenser allows for heat recovery and improves the overall efficiency of the system by recycling the condensate. This process also helps maintain optimal operating conditions and reduces water consumption.
What is the result after heating of water?
Heat is the transfer of energy from one object to another because of a difference in temperature.There are at least 3 different things which can happen if you heat water:1) The temperature of the water will increase until it gets to the same temperature as the object which heated the water.2) The water temperature will increase, then the water will turn to steam, then the steam will increase in temperature. This would happen if the heat source temperature is higher than the steam point and there is nothing trying to cool the water at the same time.3) The water temperature near the heat source will increase, but the water might be connected to a cooler object so that heat flows out of the water, too. It's possible that the average water temperature doesn't change. Imagine a pot of water on a small fire sitting outside in cold weather.
A kind of engine that uses water steam or heat?
A steam engine uses water, steam, and heat.
How many btus are requiier to change five pounds of ice 20f to steam at 220f?
To change 5 pounds of ice at 20°F to steam at 220°F, you would first need to heat the ice to its melting point, then heat the water to its boiling point, and finally convert the water to steam. The total heat required can be calculated using the specific heat capacities of ice, water, and steam, as well as the heat of fusion and vaporization. The specific calculations would depend on the specific heat capacities and heat of fusion/vaporization values provided.
What is total heat of steam?
The total heat of steam, also known as enthalpy of steam, is the amount of heat required to raise the temperature of water to its boiling point and then convert it into steam without changing its temperature. It is the sum of sensible heat and latent heat of vaporization.
What is heat rate of steam turbine How to calculate heat rate of steam turbine?
manish
In a household radiator G of steam at 100. C condenses. How much heat is released?
The heat released when steam condenses can be calculated using the latent heat of vaporization. For water, the latent heat of vaporization is approximately 2260 kJ/kg. Therefore, if you know the mass of the steam condensing, you can calculate the heat released by multiplying the mass (in kg) by 2260 kJ/kg. For example, if 1 kg of steam condenses, it would release about 2260 kJ of heat.
