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Q: What is the right answer to this 68 to the prime factorization number using exponets?

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89 is a prime number in its own right

It is simply 293 because it is a prime number in its own right

It is 269 because 269 is a prime number in its own right

19 is a prime number in its own right and needs no exponents

11 is a prime number in its own right and needs no exponents

No, 21 is not a prime number. But Audrey knew that.

You've come to the right place. Here is the answer: None, because 293 is a prime number.

2 to the power 6 times 7.

5,5,7,11,11That is the RIGHT answer

The right answer is 5x5x17

41 is a prime number in its own right because it has only two factors which are itself and one

23 is a prime number in its own right because it has only two factors which are itself and one

The factorization will consist of all prime numbers and it will total the number you're looking for. 2 x 2 x 3 x 3 = 36

Because 41 is a prime number, we can see right away that this expression can not be factored.

prime factorization-when you take a number like 6 and right three times two.then you chek if those numbers are primes and if they are (they are)you right at the bottom of the problem 3 times 2

Prime Factorization "Prime Factorization" is finding which prime numbers you need to multiply together to get the original number. Example 1 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 But 6 is not a prime number, so we need to factor it further: 6 ÷ 2 = 3 And 3 is a prime number, so: 12 = 2 × 2 × 3 As you can see, every factor is a prime number, so the answer must be right - the prime factorization of 12 is 2 × 2 × 3, which can also be written as 22 × 3 Example 2 What is the prime factorization of 147? Can we divide 147 evenly by 2? No, so we should try the next prime number, 3: 147 ÷ 3 = 49 Then we try factoring 49, and find that 7 is the smallest prime number that works: 49 ÷ 7 = 7 And that is as far as we need to go, because all the factors are prime numbers. 147 = 3 × 7 × 7 = 3 × 72

Prime Factorization "Prime Factorization" is finding which prime numbers you need to multiply together to get the original number. Example 1 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 But 6 is not a prime number, so we need to factor it further: 6 ÷ 2 = 3 And 3 is a prime number, so: 12 = 2 × 2 × 3 As you can see, every factor is a prime number, so the answer must be right - the prime factorization of 12 is 2 × 2 × 3, which can also be written as 22 × 3 Example 2 What is the prime factorization of 147? Can we divide 147 evenly by 2? No, so we should try the next prime number, 3: 147 ÷ 3 = 49 Then we try factoring 49, and find that 7 is the smallest prime number that works: 49 ÷ 7 = 7 And that is as far as we need to go, because all the factors are prime numbers. 147 = 3 × 7 × 7 = 3 × 72

Prime Factorization "Prime Factorization" is finding which prime numbers you need to multiply together to get the original number. Example 1 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 But 6 is not a prime number, so we need to factor it further: 6 ÷ 2 = 3 And 3 is a prime number, so: 12 = 2 × 2 × 3 As you can see, every factor is a prime number, so the answer must be right - the prime factorization of 12 is 2 × 2 × 3, which can also be written as 22 × 3 Example 2 What is the prime factorization of 147? Can we divide 147 evenly by 2? No, so we should try the next prime number, 3: 147 ÷ 3 = 49 Then we try factoring 49, and find that 7 is the smallest prime number that works: 49 ÷ 7 = 7 And that is as far as we need to go, because all the factors are prime numbers. 147 = 3 × 7 × 7 = 3 × 72

No. The prime factorisation of 42 = 3 x 7 x 2.

110= 11*10 11 is prime, so that's one part right there 10=2*5 NOw, 2 and 5 are also prime, so the prime factorization is 2*5*11

Digital encryption is based on prime factorization of really large numbers. Each software manufacturer writes a specific algorithm to encode each password with a semi-random large number. And the characters you chose are encoded with the prime factorization of that number. Since every number has a "unique" prime factorization that's what makes it secure. Password "hacking programs" run through several prime factors systematically until it finds the right one and "decodes" the password.

3 x 3 x 11 kilograms