first check out the total charge and the no of moles and then the n factor
how can i calculate brsting factor and what may be the bursting factor for corogated pakaging
21
In cases of particular elements during reactions we see the change is their individual oxidation states.But if we have to calculate the equivalent weight of a species in a particular reaction,we have to find out the n factor for that particular species in the reaction.It is basically the overall exchange of electrons of a species per mole of that species in the reaction. And 1 thing more,n factor can never be calculated for individual atoms. For example:if we have to find out the equivalent weight of Fe2S3 in the reaction Fe2S3 --> FeSO4 + SO2 First v balance the equation which gives Fe2S3 + 502-->2FeSO4 +SO2 Then v find out the oxiadation states of S in d differsnt compounds cos v c that S is the only common element in all.In Fe2S3 The ox.state of s is -2.In FeS04 it's +6 n in SO2 it's +4. So we c the net exchange of electrons per mole of Fe2S3 in d reaction is 2*(+6-(-2))+(4-(-2)) = (2*8)+6 =22 Therefore the n factor of Fe2S3 is 22. So its equivalent weight will be Molecular weight/22.
N-factor of an acid is its basicity or the no. of H+ ions it produces on dissociation per molecule of acid. Generally, it equal to the no. of H+ ions present in the molecule but in some cases it is different. For example n-factor of some acids are:- HCl :-1 H2SO4:-2 H3PO4:- 3 H3PO3:- 2 H3PO2:-1 CH3COOH:-1
The lever which is pivoted at A below is in equilibrium.(a) Calculate the magnitude of P(b) Calculate the reaction (both the magnitude and direction) at the pivot A.50 N2m 2m 3mA 60 N30°P40 N
Do not calculate. Get it from Fama/French's website
Obviously, both terms have the common factor "n". You get the other factor by dividing both terms by n. The result is "n + 2".
You need to calculate the yield of the reaction.
A factor is like xfacter lol
It's "wind chill factor"
catalyst
The GCF is 1.