what is the hcf of 1470 , 2788 and 4032
please tell
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Answer:
multiply 1470 × 2788 × 4032 = 16,524,587, 520
this
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gcf, hcf, gcd (1,470; 1,890) = ? Calculate the greatest (highest) common factor (divisor) GCF (HCF, GCD), using the online calculator
Calculate the greatest (highest) common factor (divisor), gcf, hcf, gcd (1,470; 1,890) = ? Approach 1. Integer numbers prime factorization. Approach 2. Euclid's algorithm.
gcf, hcf, gcd (3,985; 1,890) = ? ... (9,404; 1,470) = ?
Approach 1. Integer numbers prime factorization:
Prime Factorization of a number: finding the prime numbers that multiply together to make that number.
1,470 = 2 × 3 × 5 × 72;
1,470 is not a prime, is a composite number;
1,890 = 2 × 33 × 5 × 7;
1,890 is not a prime, is a composite number;
* Positive integers that are only dividing by themselves and 1 are called prime numbers. A prime number has only two factors: 1 and itself.
* A composite number is a positive integer that has at least one factor (divisor) other than 1 and itself.
Calculate the greatest (highest) common factor (divisor), gcf, hcf, gcd:
Multiply all the common prime factors, by the lowest exponents (if any).
gcf, hcf, gcd (1,470; 1,890) = 2 × 3 × 5 × 7
gcf, hcf, gcd (1,470; 1,890) = 2 × 3 × 5 × 7 = 210;
The numbers have common prime factors.
>> Integer numbers prime factorization
Approach 2. Euclid's algorithm:
This algorithm involves the operation of dividing and calculating remainders.
'a' and 'b' are the two positive integers, 'a' >= 'b'.
Divide 'a' by 'b' and get the remainder, 'r'.
If 'r' = 0, STOP. 'b' = the GCF (HCF, GCD) of 'a' and 'b'.
Else: Replace ('a' by 'b') & ('b' by 'r'). Return to the division step above.
Step 1. Divide the larger number by the smaller one:
1,890 ÷ 1,470 = 1 + 420;
Step 2. Divide the smaller number by the above operation's remainder:
1,470 ÷ 420 = 3 + 210;
Step 3. Divide the remainder from the step 1 by the remainder from the step 2:
420 ÷ 210 = 2 + 0;
At this step, the remainder is zero, so we stop:
210 is the number we were looking for, the last remainder that is not zero.
This is the greatest common factor (divisor).
Greatest (highest) common factor (divisor):
gcf, hcf, gcd (1,470; 1,890) = 210
Why is the answer a factor (a divisor) of the initial 'a' and 'b'?
Note: 'a' ÷ 'b' = 'q' + 'r' is equivalent to the equation: 'a' = 'q' × 'b' + 'r', where 'q' is the quotient of the operation.
When the final value of 'r' = 0, the final value of 'b' is a factor (a divisor) of the final value of 'a', since 'a' = 'q' × 'b' + 0.
Go backwards the previous division steps, through each equation, 'a' = 'q' × 'b' + 'r', and notice that at each step the final value of 'b' is a factor (a divisor) of each value of 'r' and of each value of 'b' and therefore is a factor of each value of 'a'. So the final value of 'b', which is the last remainder in our list that is not zero, is a factor of the initial values of ('a' and 'b'), or in other words, is a divisor of the intial values of ('a' and 'b').
Why is the answer equal to the CGF (HCF, GCD)?
Look at all the equations: 'a' = 'q' × 'b' + 'r'. As we saw above, the final value of 'b' is a factor of all the values of 'a', 'b', and 'r'.
Therefore the final value of 'b' must also be a factor of the last value of 'r', the one that is not zero. And the final value of 'b' couldn't be larger than that value. But the final value of 'b' is actually equal to that value of 'r', therefore the final value of 'b' is the largest factor (divisor) of the initial values of 'a' and 'b'. And by definition it's called the greatest (highest) common factor (divisor) of numbers.
gcf, hcf, gcd (1,470; 1,890) = 210 = 2 × 3 × 5 × 7;
>> Euclid's algorithm
Final answer:
Greatest (highest) common factor (divisor)
gcf, hcf, gcd (1,470; 1,890) = 210 = 2 × 3 × 5 × 7;
The numbers have common prime factors.
Why do we need the greatest (highest) common factor (divisor)?
When you have calculated the greatest (highest) common factor (divisor), GCF (HCF, GCD), of the numerator and denominator of a fraction, it becomes easier to reduce it (simplify it) to the lowest terms.
More operations of this kind:
gcf, hcf, gcd (3,985; 1,890) = ? ... (9,404; 1,470) = ?
Calculator: greatest common factor (divisor) gcf, gcd
Integer number 1:
1470
Integer number 2:
1 common factor of "a" and "b" is a also a factor (divisor) of the greatest common factor, GCF (greatest common divisor, GCD, highest common factor, HCF) of "a" and "b".
What is a prime number?
What is a composite number?
Prime numbers up to 1,000
Prime numbers up to 10,000
Sieve of Eratosthenes
Euclid's algorithm
Simplifying ordinary (common) math fractions (reducing to lower terms): steps to follow and examples
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