The ionisation enthalpy of an element means, amount of energy required to remove an electron from its valence shell(in simple words).
When we look at the first, second and third ionisation enthalpies, we notice that there is a significant jump from the second to the third value( more than double). This implies it is much more difficult to remove the third electron. Therefore it is possible to remove the first two.
We know that when 2 electrons are removed, we get p^2+. Therefore each electron from p will satisfy the valencies of two chlorines.
The ionisation enthalpy of an element means, amount of energy required to remove an electron from its valence shell(in simple words).
When we look at the first, second and third ionisation enthalpies, we notice that there is a significant jump from the second to the third value( more than double). This implies it is much more difficult to remove the third electron. Therefore it is possible to remove the first two.
We know that when 2 electrons are removed, we get p^2+. Therefore each electron from p will satisfy the valencies of two chlorines.
Answers & Comments
Answer:
option C
Explanation:
The ionisation enthalpy of an element means, amount of energy required to remove an electron from its valence shell(in simple words).
When we look at the first, second and third ionisation enthalpies, we notice that there is a significant jump from the second to the third value( more than double). This implies it is much more difficult to remove the third electron. Therefore it is possible to remove the first two.
We know that when 2 electrons are removed, we get p^2+. Therefore each electron from p will satisfy the valencies of two chlorines.
Hope this helped!!
option C
The ionisation enthalpy of an element means, amount of energy required to remove an electron from its valence shell(in simple words).
When we look at the first, second and third ionisation enthalpies, we notice that there is a significant jump from the second to the third value( more than double). This implies it is much more difficult to remove the third electron. Therefore it is possible to remove the first two.
We know that when 2 electrons are removed, we get p^2+. Therefore each electron from p will satisfy the valencies of two chlorines.
Hope this helped!!