Define IE and I E₂ . Why
is IE₂> IE, for
Discuss the factor that effect It of an
Monday 05
given atom?
for a
element ?
Answers
Answer:
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom .
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom .
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong ,
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong , the second ionisation energy is always more than that of first ionisation energy .
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong , the second ionisation energy is always more than that of first ionisation energy . beacuse , once a atom looses one electron , then it will trying to make it more stable , so, the force that nucleaus exert on outer shell electron will be increased , in that case we have to apply more force for removing the 2nd electron .
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong , the second ionisation energy is always more than that of first ionisation energy . beacuse , once a atom looses one electron , then it will trying to make it more stable , so, the force that nucleaus exert on outer shell electron will be increased , in that case we have to apply more force for removing the 2nd electron . FACTORS AFFECTING IE
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong , the second ionisation energy is always more than that of first ionisation energy . beacuse , once a atom looses one electron , then it will trying to make it more stable , so, the force that nucleaus exert on outer shell electron will be increased , in that case we have to apply more force for removing the 2nd electron . FACTORS AFFECTING IE 1- atomic radius , 2- nuclear charge 3- orbital penetration
ionisation energy or ionisation enthalpy is the enrgy required to remove the most loosely bound electron from an isolated gaseous atom . and IE1 , IE2 , these are the removal of first as well as second electron from an atom . and the notation that u have given is wrong , the second ionisation energy is always more than that of first ionisation energy . beacuse , once a atom looses one electron , then it will trying to make it more stable , so, the force that nucleaus exert on outer shell electron will be increased , in that case we have to apply more force for removing the 2nd electron . FACTORS AFFECTING IE 1- atomic radius , 2- nuclear charge 3- orbital penetration 4- sheilding or screening effect 5- electron pairing within a subshell .
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