(a)
Interpretation:
Interpret the cooling curve from the temperature 1100 C and -100 C and show the solid state in it.
Concept Introduction:
A graphical plot that represents changes in temperature with respect to time for a material over a range of temperature through which it cools is said to be a cooling curve for the material.
(b)
Interpretation:
Interpret the cooling curve from the temperature 110o C and -10o C and show the freezing state in it.
Concept Introduction:
A graphical plot that represents changes in temperature with respect to time for a material over a range of temperature through which it cools is said to be a cooling curve for the material.
(c)
Interpretation:
Interpret the cooling curve from the temperature 110o C and -10o C and show the liquid state in it.
Concept Introduction:
A graphical plot that represents changes in temperature with respect to time for a material over a range of temperature through which it cools is said to be a cooling curve for the material.
(d)
Interpretation:
Interpret the cooling curve from the temperature 110o C and -10o C and show the condensing state in it.
Concept Introduction:
A graphical plot that represents changes in temperature with respect to time for a material over a range of temperature through which it cools is said to be a cooling curve for the material.
(e)
Interpretation:
Interpret the cooling curve from the temperature 110o C and − 10o C and show the gas state in it.
Concept Introduction:
A graphical plot that represents changes in temperature with respect to time for a material over a range of temperature through which it cools is said to be a cooling curve for the material.
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Basic Chemistry
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