HCF of 396 and 1080 is the largest possible number which divides 396 and 1080 without leaving any remainder. The methods to compute the HCF of 396, 1080 are explained here.
Find the HCF of: (a) 42, 63 and 140 (b) 108, 288 and 360 02:54 Find the H.C.F. of 513, 1134 and 1215. 01:38 Reduce (391)/(667) to lowest terms. 01:58 Find the L.C.M of 2^2xx3^3xx5xx7^2,\ \ 2^3xx3^2xx5^2xx7^4,\ \ 2xx3xx5... 01:13 Find the L.C....
For the least possible number of casks of equal size, the size of each cask must be of the greatest volume. To get the greatest volume of each cask, we have to find the largest number which exactly divides 403, 434 and 465. That is the highest common factor (HCF) of (403, 434, 4...
HCF of 960 and 432 is the largest possible number which divides 960 and 432 without leaving any remainder. The methods to compute the HCF of 960, 432 are explained here.
Now any number “x” is a factor of “n1” and also factor of “n2” then “x” is called common factor of n1 ans n2. Ex: 6 is a common factor of 12 and 24. Divisible If n1 and n2 are two numbers n1 is divisor , n2 is dividend and remainder came zero than n1 is divisible...
Learn Properties of HCF and LCM and the relation between LCM and HCF of natural numbers with examples. Formula to find HCF and LCM of fractions at BYJU'S.
HCF of 1872 and 1320 is the largest possible number which divides 1872 and 1320 without leaving any remainder. The methods to compute the HCF of 1872, 1320 are explained here.
HCF of 324 and 144 is the largest possible number which divides 324 and 144 without leaving any remainder. The methods to compute the HCF of 324, 144 are explained here.
HCF of 1260 and 7344 is the largest possible number which divides 1260 and 7344 without leaving any remainder. The methods to compute the HCF of 1260, 7344 are explained here.
This research estimates the high-cycle fatigue (HCF) life of integrated concrete bridge installed on water due to temperature changes. To this end, CATIA software was used to geometrically model of a real-scale bridge. Next, thermal–structural coupling