Given,
Specific heat capacity of lead = 0.128 J/g
Specific heat capacity of magnesium= 1.024 J/g
Molar heat capacity is the amount of heat needed to raise the temperature of 1 mole of a substance by 1 unit.
So,
For calculating molar heat capacity we need to multiply the specific heat capacities of the metals with their atomic masses.
Atomic mass of lead (Pb) = 207
Atomic mass of magnesium (Mg) = 24
∴ Molar heat capacity = specific heat capacity x atomic mass
Molar heat capacity of Pb=0.128 x 207 = 26.5 J
Molar heat capacity of magnesium (Mg) = 1.024 x 24 = 24.5
Hence , molar heat capacities of lead and magnesium are 26.5 and 25.5 Joules respectively.
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Molar heat capacities of lead and magnesium is 26.49 and 24.5 Joules, respectively.
Given,
Lead has a specific heat capacity of 0.128 J/g.
Magnesium has a specific heat capacity of 1.024 J/g.
The quantity of heat required to increase the temperature of 1 mole of a substance by 1 unit is known as its molar heat capacity.
So, We must multiply the specific heat capacities of the metals by their atomic masses in order to determine their molar heat capacities.
Lead (Pb) has an atomic mass of 207.
Magnesium (Mg) has an atomic mass of 24.
Specific heat capacity multiplied by atomic mass gives the molar heat capacity.
Pb has a 26.5 J molar heat capacity (0.128 x 207).
Magnesium's (Mg) molar heat capacity is equal to 1.024 x 24.
Thus, lead and magnesium have molar heat capacities of 26.49 and 24.5 Joules, respectively.
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