10th practical 5 study the effect of heat on ice
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Answer:we know there are usually three types of heat used in everyday life to understand physical phenomena.
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat .
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C .
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .when substance change its phase at constant temperature is used new terms e.g,. latent heat. ice at 0°C change into water at this temperature. heat supplied to ice is known as latent heat of fusion.
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .when substance change its phase at constant temperature is used new terms e.g,. latent heat. ice at 0°C change into water at this temperature. heat supplied to ice is known as latent heat of fusion.here , in case of charging phase , heat is independent on temperature.
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .when substance change its phase at constant temperature is used new terms e.g,. latent heat. ice at 0°C change into water at this temperature. heat supplied to ice is known as latent heat of fusion.here , in case of charging phase , heat is independent on temperature. so, graph is parallel to x axis as shown in figure.
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .when substance change its phase at constant temperature is used new terms e.g,. latent heat. ice at 0°C change into water at this temperature. heat supplied to ice is known as latent heat of fusion.here , in case of charging phase , heat is independent on temperature. so, graph is parallel to x axis as shown in figure. now, if we supply heat to water, temperature of water increase . then, again heat is directly proportional to temperature.
Q = mS∆T , when substance doesn't change its phase , then it must be change their temperature. then, this temperature is directly proportional to supplied heat . so, when we supply heat to ice , ice increase there remember from - T to 0°C . you can see variation of temperature and heat in graph .when substance change its phase at constant temperature is used new terms e.g,. latent heat. ice at 0°C change into water at this temperature. heat supplied to ice is known as latent heat of fusion.here , in case of charging phase , heat is independent on temperature. so, graph is parallel to x axis as shown in figure. now, if we supply heat to water, temperature of water increase . then, again heat is directly proportional to temperature. now, I think you understand how we plot graph of ice between heat and temperature.
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