(a)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(a)
Answer to Problem 13.34P
Explanation of Solution
Both sodium and cesium are present in the same period of the periodic table. But sodium lies above cesium so its ionic volume is less than that of cesium and therefore
(b)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(b)
Answer to Problem 13.34P
Explanation of Solution
Both rubidium and strontium are present in the same period of the periodic table. But strontium lies to the right of rubidium so its size and therefore volume are small. Also, the charge on
(c)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(c)
Answer to Problem 13.34P
Explanation of Solution
Both sodium and chlorine are present in the same period of the periodic table. But cations are smaller than anions so the charge density of
(d)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(d)
Answer to Problem 13.34P
Explanation of Solution
(e)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(e)
Answer to Problem 13.34P
Explanation of Solution
Oxygen and sulfur are present in the same group of the periodic table. But oxygen lies above sulfur so its size and therefore volume is smaller than that of sulfur. So the charge density of
(f)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(f)
Answer to Problem 13.34P
Explanation of Solution
Magnesium and barium are present in the same group of the periodic table. But magnesium lies above barium so its size, as well as volume, is smaller than that of barium. So the charge density of
(g)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(g)
Answer to Problem 13.34P
Explanation of Solution
The ionic charge of
(h)
Interpretation:
Whether
Concept introduction:
The charge density is defined as the ratio of ionic charge and volume. It is directly proportional to the ionic charge and inversely proportional to the ionic volume. Volume is directly related to the ionic size. Smaller ion will have the charge spread over a small space so charge density will be more and vice-versa.
The enthalpy change of hydration is the enthalpy change when one mole of the ionic species is dissolved in water to give a solution of infinite dilution. It is represented by
(h)
Answer to Problem 13.34P
Explanation of Solution
The ionic charge of
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