N(B)=7
N(A)=17
N(U)= 25
Find N(B-A
Answers
Step-by-step explanation:
Solution
n(A)=7n(A)=7
n(B)=5n(B)=5
n(A∪B)=11n(A∪B)=11
(A∩B)=?(A∩B)=?
Let the intersection of A and B = n,n(Aonly)=7−n,n(Bonly)=5−nn,n(Aonly)=7−n,n(Bonly)=5−n
n(AUB)=n(Aonly)+n(Bonly)+n(AnB)n(AUB)=n(Aonly)+n(Bonly)+n(AnB)
After you replace the equations in the formula above,
n(AUB)=n(Aonly)+n(Bonly)+n(AnB)n(AUB)=n(Aonly)+n(Bonly)+n(AnB)
n(AUB)=7−n+5−n+nn(AUB)=7−n+5−n+n
Remember our n(AUB)=11,,n(AUB)=11,,
11=7−n+5−n+n11=7−n+5−n+n
Revise the formula for easy understanding starting from n,son,so
n+5−n+7−n=11n+5−n+7−n=11
n−n−n+5+7=11n−n−n+5+7=11
The first two n (s) cancel out and we remain with one, as shown below
5+7−n=115+7−n=11
But 5+7=125+7=12
Therefore,
12−n=1112−n=11
Here n crosses to become a positive (+n) and 11 crosses to the opposite side to become a negative (-11) as shown below,
12−n=1112−n=11
12−11=n12−11=n
but 12−11=112−11=1
1=n1=n
n=1n=1
But remember we said let the intersection of A and B = nn
so n(AnB)=nn(AnB)=n
Theren(AnB)=1.Theren(AnB)=1.
So Ifn(A)=7,n(A∪B)=11,andn(B)=5,thenn(A∩B)=1.