0:00
Hello everyone.
00:01
So here we have been provided a five set of filament and they were saying which is a most endothermic energy.
00:08
First of all, i would like to explain this reaction.
00:13
So in this reaction you can see there is this is actually reactant side and this is actually the product side where we are seeing over here.
00:25
E minus right.
00:26
That is nothing but the electron is going to be.
00:30
Losing over here.
00:31
So lost of electron, one electron is going to be happening in this reaction.
00:38
We can say that and the losing of electron or we can say what electron got lost.
00:46
That is nothing but your word we can say that is ionization energy.
00:52
We can save those as an ionization energy.
00:58
And we can represent ionization energy.
00:59
And we can represent ionization energy as.
01:01
As an i e1 over here we are going to be represent as in one why one because one electron is going to be loosed over here same way i can give you one more example for sake e plus the plus side is going to be signifying you the losing of electron so here i'm going to take the example one more so here you can say that is plus 2 over here and e is having got plus 2 that is going to be signifying you the losing of 2 electron we can write like this way i e 2 that is nothing that we can say electron 2 electron is going to be lost over here and when we are talking about the energy so which is having the most energy most is nothing but the highest one and endothomic when we are going to be talking about this endothermic energy is always remember that it is always what it is always represent as energy gain it is going to be represented as what energy gain energy gain that is going to be represented by positive sign it is going to be always represent like this way only.
02:29
And another one energy is nothing but exothermic energy...