find the least number that when divided by 16,18,20 leaves a remainder 4 in each case but completely divisible by 7
Answers
First of all we have to take the L.C.M. of 16, 18 and 20
Prime factorization of 16 = 2*2*2*2
Prime factorization of 18 = 2*3*3
Prime factorization = 20 = 2*2*5
= 2*2*2*2*3*3*5
L.C.M. of 16, 18 and 20 = 720
Now, the L.C.M. of 16, 18 and 20 is 720.
So, the required number will be in the form of (720*x) + 4
Now, we have to apply the hit and trial method to find the least value of x for
which (720*x)+ 4 is divisible by 7 ... by putting x = 1, 2, 3, 4.........n.
First by putting x = 1
⇒ (720*1) + 4
⇒ 720 + 4
⇒ 724
724 is not divisible by 7.
Now, putting x = 2
⇒ (720*2) + 4
⇒ 1440 + 4
⇒ 1444
1444 is also not divisible by 7.
Now, putting x = 3
⇒ (720*3) + 4
⇒ 2160 + 4
⇒ 2164
2164 is also not divisible by 7
Now, putting x = 4
⇒ (720*4) + 4
⇒ 2880 + 4
⇒ 2884
2884 is exactly divisible by 7
So, for the value of x = 4, the required number comes 2884.
2884 is the least number which when divided by 16, 18 and 20 leaves a
remainder 4 in each case but exactly divisible by 7.
Answer.
Hope it helps you......
First of all we have to take the L.C.M. of 16, 18 and 20
Prime factorization of 16 = 2*2*2*2
Prime factorization of 18 = 2*3*3
Prime factorization = 20 = 2*2*5
= 2*2*2*2*3*3*5
L.C.M. of 16, 18 and 20 = 720
Now, the L.C.M. of 16, 18 and 20 is 720.
So, the required number will be in the form of (720*x) + 4
Now, we have to apply the hit and trial method to find the least value of x for
which (720*x)+ 4 is divisible by 7 ... by putting x = 1, 2, 3, 4.........n.
First by putting x = 1
⇒ (720*1) + 4
⇒ 720 + 4
⇒ 724
724 is not divisible by 7.
Now, putting x = 2
⇒ (720*2) + 4
⇒ 1440 + 4
⇒ 1444
1444 is also not divisible by 7.
Now, putting x = 3
⇒ (720*3) + 4
⇒ 2160 + 4
⇒ 2164
2164 is also not divisible by 7
Now, putting x = 4
⇒ (720*4) + 4
⇒ 2880 + 4
⇒ 2884
2884 is exactly divisible by 7
So, for the value of x = 4, the required number comes 2884.
2884 is the least number which when divided by 16, 18 and 20 leaves a
remainder 4 in each case but exactly divisible by 7