Question about Mathsoft Computers & Internet

Ad

The prime factorization of 1320 is 2 * 2 * 2 * 3 * 5 * 11. Or are you asking in general? See http://en.wikipedia.org/wiki/Integer_factorization

Posted on Oct 22, 2013

Ad

Hi there,

Save hours of searching online or wasting money on unnecessary repairs by talking to a 6YA Expert who can help you resolve this issue over the phone in a minute or two.

Best thing about this new service is that you are never placed on hold and get to talk to real repairmen in the US.

Here's a link to this great service

Good luck!

Posted on Jan 02, 2017

Ad

A **factor** that is a **prime** number. Any of the **prime** numbers that, when multiplied, give the original number. Example: The**prime factors** of 15 are 3 and 5 (3×5=15, and 3 and 5 are**prime** numbers).

Jun 15, 2017 | Prime Computers & Internet

By changing the number for your prime factorization, you also have a different diagram.

Prime factorization for 66

** 66**

** /\**

** 2*33**

** /\**

** 3*11**

Even if we change the prime factorization order, we still have the same numbers.

**66 = 2 * 3 * 11**

Prime factorization for 66

Even if we change the prime factorization order, we still have the same numbers.

Feb 23, 2017 | Cars & Trucks

Hello there,

First you need to find the P'rime factors' of 5765 which are 5 * 1153

Therefore the Exponential form of 5765 is 51 x 11531

You MUST find the PRIME FACTORS

(That means the two Prime numbers that when multiplied together gives the answer.

. Go here to see how. to 'manually calculate like we used to do it,

http://www.calculatorsoup.com/calculators/math/prime-factors.php

Nowadays just search for**'Prime Factors Calculator**' on your search engine.

First you need to find the P'rime factors' of 5765 which are 5 * 1153

Therefore the Exponential form of 5765 is 51 x 11531

You MUST find the PRIME FACTORS

(That means the two Prime numbers that when multiplied together gives the answer.

. Go here to see how. to 'manually calculate like we used to do it,

http://www.calculatorsoup.com/calculators/math/prime-factors.php

Nowadays just search for

Sep 10, 2014 | Office Equipment & Supplies

There are three prime factors: 7, 11, and 13.

Mar 29, 2014 | Computers & Internet

There is nothing you can do to make the calculator find the HCF for you. No point complaining about that. But if you are interested in doing it by hand (using the calculator to do the divisions for you) here how it is done.

**Example: **Here are the decompositions of two numbers

(2^5)*3***(5^4)**(7^3)***11** and **(2^3)***(5^6)*(11^2)***7**

The prime factors that are present in both decompositions are

2, 5, 7, and 11

From the two decompositions select the smallest power of each common prime factor. They are represented in** bold font**s.

2^3, 5^4, 7, 11

The highest common divisor/Highest common factor is

**(2^3)*(5^4)*7*11**

- Decompose the first number in prime factors. If a prime factor is repeated use the exponent notation:
**That helps.** **D**ecompose the second number in prime factors too, using the exponent notation.- Now look at the two decompositions. If a prime factor
**is present in both decompositions**it must be in the HCD /HCF, with the smallest of its two exponents. - Do that for all prime factors

(2^5)*3*

The prime factors that are present in both decompositions are

2, 5, 7, and 11

From the two decompositions select the smallest power of each common prime factor. They are represented in

2^3, 5^4, 7, 11

The highest common divisor/Highest common factor is

Mar 27, 2014 | Casio Office Equipment & Supplies

The calculator has no application that will find the highest common divisor (or HCF) but that should not be difficult to do by hand.

Decompose the first number in prime factors. If a prime factor is repeated use the exponent notation:**That helps**

Decompose the second number in prime factors too, using the exponent notation.

Now look at the two decompositions. If a prime factor is present in both decomposition it must be in the HCD /HCF, with the smallest of the two exponents. Do that for all prime factors

Example;

(2^5)*3***(5^4)**(7^3)***11**

**(2^3)***(5^6)*(11^2)***7**

The prime factors that are present in both decompositions are

2, 5, 7, and 11

From the two decompositions select the smallest power of each

2^3, 5^4, 7, 11

The highest common divisor/Highest common factor is

**(2^3)*(5^4)*7*11**

Decompose the first number in prime factors. If a prime factor is repeated use the exponent notation:

Decompose the second number in prime factors too, using the exponent notation.

Now look at the two decompositions. If a prime factor is present in both decomposition it must be in the HCD /HCF, with the smallest of the two exponents. Do that for all prime factors

Example;

(2^5)*3*

The prime factors that are present in both decompositions are

2, 5, 7, and 11

From the two decompositions select the smallest power of each

2^3, 5^4, 7, 11

The highest common divisor/Highest common factor is

Mar 27, 2014 | Casio Office Equipment & Supplies

"Prime Factorization" is finding **which prime numbers** multiply together to make the original number.

Example : What are the prime factors of 12 ?
It is best to start working from the smallest prime number, which is 2, so let's check:

12 ÷ 2 = 6

Yes, it divided evenly by 2. We have taken the first step!

But 6 is not a prime number, so we need to go further. Let's try 2 again:

6 ÷ 2 = 3

Yes, that worked also. And 3 **is** a prime number, so we have the answer:

**12 = 2 × 2 × 3**

As you can see, **every factor** is a **prime number**, so the answer must be right.

Note: **12 = 2 × 2 × 3** can also be written using exponents as **12 = 22 × 3**

Jun 22, 2011 | Computers & Internet

bool isprime;

isprime =

factor = 0;

// see if num is evenly divisible

// num is evenly divisible -- not prime

isprime =

factor = i;

}

}

Console.WriteLine(num + " is prime.");

Console.WriteLine("Largest factor of " + num +

" is " + factor);

}

}

}

Feb 01, 2011 | Computers & Internet

Hi johnhboland

Prime numbers are 2,3,5,7,11,13,17,23 .........

Take different combinations from the above list and multiply making sure you don't exceed 100

2x3x5 =30

2x3x7 =42

2x3=11 =66

2x3x13 =78

2x5x7 =70

I would say the answers are 30, 42, 66, 78, and 100 all have 3 prime factors

If repetition of the same factor is allowed:

answers would be 64 and 96 both having 6 prime factors

Have a good day

luciana44

Prime numbers are 2,3,5,7,11,13,17,23 .........

Take different combinations from the above list and multiply making sure you don't exceed 100

2x3x5 =30

2x3x7 =42

2x3=11 =66

2x3x13 =78

2x5x7 =70

I would say the answers are 30, 42, 66, 78, and 100 all have 3 prime factors

If repetition of the same factor is allowed:

answers would be 64 and 96 both having 6 prime factors

Have a good day

luciana44

Nov 17, 2009 | Mathsoft StudyWorks! Middle School Deluxe...

#include<stdio.h>

#include<conio.h>

void main()

{

int num,i=1,j,k;

clrscr();

printf("\nEnter a number:");

scanf("%d",&num);

while(i<=num)

{

k=0;

if(num%i==0)

{

j=1;

while(j<=i)

{

if(i%j==0)

k++; j++;

}

if(k==2)

printf("\n%d is a prime factor",i);

}

i++;

}

getch();

}

#include<conio.h>

void main()

{

int num,i=1,j,k;

clrscr();

printf("\nEnter a number:");

scanf("%d",&num);

while(i<=num)

{

k=0;

if(num%i==0)

{

j=1;

while(j<=i)

{

if(i%j==0)

k++; j++;

}

if(k==2)

printf("\n%d is a prime factor",i);

}

i++;

}

getch();

}

May 16, 2009 | Computers & Internet

25 people viewed this question

Usually answered in minutes!

×