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What else can I help you with?
Does it take 4180 Joules to heat 1 liter of water?
amount of energy required to heat 1 liter of water completely depends on the desired change in temperature. q = Cg m ∆T ∆T = q/ (Cg x m) = 4180/(4.18 x 1000) = 1 4180 J would heat 1 liter of water by 1 oC
Is evaporation heat gain or heat loss?
For what?It requires a heat gain for the water,but a heat loss for whatever the water is in contact with.
What energy transfers are there when water freeze?
Heat
What is the name of heat energy that changes ice into water and water into steam?
Latent heat is the measurement of energy needed to change the state of a substance at its melting point or boiling point. The latent heat of fusion of water is the amount of energy needed to change a fixed amount of water from a solid to liquid at 0 degrees C. this works out to be more than 800KJ of heat energy. The latent heat of vaporization of water is the amount of energy needed to change a fixed amount of water from a liquid to a gas at 100 degrees C. this is more than 1200KJ of heat needed to be absorbed.
The form of energy related to the change of the state of water?
The energy which must be transferred to or from a sample of water in order to change it's state is called the Latent Energy or Latent Heat - for example Latent Heat of Evaporation or Latent Heat of Freezing.
Will 1 liter of hot water have more or less heat energy than 2 liters of hot water why?
2 liters of hot water will have more heat energy than 1 liter of hot water because there is a greater quantity of water to hold heat energy. The total heat energy in a system is directly proportional to the mass of the substance and its temperature.
How many watts to heat 1 liter of water?
It takes about 4.18 Joules of energy to heat 1 gram of water by 1 degree Celsius. Therefore, to heat 1 liter (1000 grams) of water by 1 degree Celsius, it would require about 4180 Joules. Converting this to watts depends on the time taken to heat the water.
Does it take 4180 Joules to heat 1 liter of water?
amount of energy required to heat 1 liter of water completely depends on the desired change in temperature. q = Cg m ∆T ∆T = q/ (Cg x m) = 4180/(4.18 x 1000) = 1 4180 J would heat 1 liter of water by 1 oC
How much energy is required to raise the temperature of one liter of water 1 degree centigrade?
The specific heat of water is 4.179 Joules per gram per degree Centigrade. The density of water is 1 gram per cubic centimeter, so one liter is 1000 grams. This means it takes 4179 Joules to raise one liter one degree Centigrade.
What type of energy is used to heat water?
Several types of energy can be used to heat water. Electric energy can heat water, like in a coffee maker. Chemical energy can be used as in a gas stove.
How do you heat water without energy?
No energy, no heat. So you cannot add heat.
What does the prefix calor mean?
Calor is a latin prefix meaning heat. A Calorie is actually a unit of energy based on the energy needed to raise one liter of water one celsius degree
Energy that is absorbed by land and water is changed into?
Heat energy. This absorbed energy warms the land and water, leading to an increase in temperature.
Why do water molecules retain heat energy?
Water molecules retain energy due to heat transfer.
Why horseshoe cools down slowly in air?
It has two reasons: 1.The specific heat of water is around four times higher than the specific heat of air, that is the water takes the energy from the hot horseshoe 4 times faster at the same temperature. 2. One liter of water contains more molecules than one liter of air, that is there are more mass around the horseshoe in water to take the heat than in air.
What has more heat energy an iceberg or hot tea?
It surely depends on how big the iceberg is ,as a really big iceberg contains a lot of thermal energy and much more than a liter of hot water.
How much heat energy is tranferred to hot water?
The amount of heat energy transferred to hot water depends on various factors such as the initial and final temperatures of the water, the mass of the water, and the specific heat capacity of water. The formula to calculate heat energy transferred is: Q = mcΔT, where Q is the heat energy, m is the mass of the water, c is the specific heat capacity of water, and ΔT is the change in temperature.
