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Heat is hotness and when ice has hotness in the surroundings, it will changes its temperature to fit in with the room temperatute, therefore ice will change its state
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How much energy is required to melt 10g of ice?
The energy required to melt ice is known as the heat of fusion, which is about 334 joules per gram. Therefore, it would take approximately 3340 joules of energy to melt 10g of ice.
How much energy is needed to melt 5 grams of ice?
To calculate this, we can use the formula: energy needed = mass * heat of fusion. The heat of fusion for ice is 334 J/g. Thus, the energy needed to melt 5 grams of ice is 5 grams * 334 J/g = 1670 Joules.
What is added to ice to make it melt and how does this affect the molecules in the ice?
Heat is added to ice to make it melt. When heat is applied, it increases the kinetic energy of the molecules in the ice, causing them to break free from their rigid structure and turn into liquid water.
How much energy is needed to melt 255.67 grams of ice?
80 calories per gram (called the latent heat of fusion) 80 x 255.67 = 20453.6 calories
Would ice cubes melt in hot water first or will the ice cubes freeze the water first?
If you put ice cubes in a bowl or whatever of hot water, the ice cube is sure to melt when put so says science.
How much energy is needed to melt g of ice at 0 Celsius?
To melt 1 gram of ice at 0°C, it requires 334 joules of energy. So for g grams of ice, the energy needed would be g multiplied by 334 joules.
How many joules of energy are needed to melt 54-grams of ice at its melting point?
The specific latent heat/ latent heat of fusion of ice is 333.55 J/gtherefore by using the equation E=mLE = 54 * 333.55= 18011.7 JTherefore the energy needed to melt 54 grams of ice at its melting point which is keeping it at 0 degrees Celsius is 18011.7 Joules.
How many photons at 660 nm must be absorbed to melt 5.0 x 10 x10 g of ice?
To calculate the number of photons needed to melt the ice, you would need to determine the energy required to melt the ice and then convert that energy into photons at 660 nm. This involves calculating the energy required to melt the ice using the heat of fusion of ice and then dividing that by the energy of a photon at 660 nm.
Why energy is needed to melt ice and how this is explained by the structures of ice and water?
Because the ice structure is made up of frozen water molecules, which are blown by fairies creating heat which makes the ice melt like butter in a dragons mouth.
How much energy is required to melt 10g of ice?
The energy required to melt ice is known as the heat of fusion, which is about 334 joules per gram. Therefore, it would take approximately 3340 joules of energy to melt 10g of ice.
How much energy is needed to melt 5 grams of ice?
To calculate this, we can use the formula: energy needed = mass * heat of fusion. The heat of fusion for ice is 334 J/g. Thus, the energy needed to melt 5 grams of ice is 5 grams * 334 J/g = 1670 Joules.
What is the amount of heat needed to melt 2 kg of ice?
The amount of heat needed to melt 2 kg of ice is 334,000 Joules. This value is known as the heat of fusion of ice, which is 334 kJ/kg.
How much energy does it take to melt a 16.87 g ice cube?
It takes about 334 J/g to melt ice. So, to melt a 16.87 g ice cube, you would need about 5635.58 J of energy.
How many calories are required to melt a 1.52 g ice cube?
how many calories are required to melt a 1.52g ice cube?
How long will it take a 50 W heater to melt 100g of ice at Zero Degrees Celsius?
To melt 100g of ice, you would need 334 J of energy (specific heat capacity of ice is 334 J/g°C). Since the ice is at 0°C, no additional energy is needed to raise its temperature. Therefore, the heater would take 334 J / 50 W = 6.68 seconds to melt 100g of ice at 0°C.
An ice cube melts when mechanical energy increases?
An ice cube will melt when it is above the freezing point of water. At this point the individual molecules have enough energy to vibrate more causing the ice cube to melt.
What do you need to know to calculate the heat needed to melt a block of ice at its melting point?
To calculate the heat needed to melt a block of ice at its melting point, you need to know the mass of the ice block, the specific heat capacity of ice, and the heat of fusion of ice (or latent heat of fusion). The formula to calculate this heat is Q = m * ΔHf, where Q is the heat energy, m is the mass, and ΔHf is the heat of fusion.
