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ice melt in the room temperature
The surrounding temperature increases the temperature of the ice block causing it to melt.
At that temperature ice would melt instantaneously.
It all depends on how much ice and where it is. Ice will melt quicker in water at room temperature than in the air and a large block of ice will take longer to melt than an ice cube
The answer depends on how large the ice cubes are, what temperature they are at the start, the ambient temperature, whether or nor the melt water is allowed to drain away or not, and so on. Without information on these factors it is not possible to answer the question.
It will melt all the ice in Antarctica and in the Arctic
The sodium chloride heat of solution increase the temperature and the ice is melted.
Temperature is an important factor, but temperature alone cannot predict that ice will melt. Adding the heat of fusion to ice at zero degrees centigrade will cause it to melt without elevating its temperature, and removing the heat of fusion from water at zero degrees centigrade will cause it to freeze without lowering its temperature.
ice-cream is to be stored in a cool place when it contacts with the heat or the normal temprature it melts
Yes, because the heat of dissolution (of sodium chloride) increase the temperature.
ice melt in the room temperature
Ice cube melts but the glacier does not melt because depending upon the temperature of the surrounding. When an ice cube is taken out of the refrigerator, there is a sudden change in the temperature of the surrounding as it (temperature) increases so the ice cube depending upon the temperate of the surroundings melts earlier. According to the latent heat of fusion, it will first melt completely to become liquid and then its temperature will increase to reach a state of thermal equilibrium e of the room temperature. In case of a glacier, the temperature of its surroundings is less so a glacier does not melt like ice cube.
0° Celsius is the temperature at which ice starts to melt.
The surrounding temperature increases the temperature of the ice block causing it to melt.
It does melt.
That is possible when there is a change of state. For example, if you have ice at its melting point, or a mixture of ice and water at its melting point, if you add heat, the energy will be used to melt the ice, not to increase the temperature.
They melt because the heat in the air is warmer than the temperature of the ice cubes.