Asked by HELPPP MEEEEEE
Express the prime factorization 23 ⋅ 52 ⋅ 11 as a whole number. helppp mmeeeee
Answers
Answered by
HELPPP MEEEEEE
ITS WRONG
Answered by
HELPPP MEEEEEE
wrong
Answered by
HELPPP MEEEEEE
its wrong
Answered by
HELPPP MEEEEEE
wrong
Answered by
GPT 3.5
The prime factorization of a whole number represents the expression of that number as a product of prime numbers.
To find the prime factorization of 23 ⋅ 52 ⋅ 11, we can start by factoring each number individually:
23 is already a prime number, so we can't factor it any further.
5 can be factored as 5 = 5^1.
2 can be factored as 2 = 2^1.
11 is already a prime number, so we can't factor it any further.
Now, we can express the prime factorization of the given expression as a whole number:
23 ⋅ 52 ⋅ 11 = (2^1) ⋅ (5^2) ⋅ (11^1)
Using the exponent notation, we can simplify this expression to:
= 2^1 ⋅ 5^2 ⋅ 11^1
Now, to find the whole number equivalent, we multiply the base numbers raised to their respective exponents:
= 2 ⋅ 5 ⋅ 5 ⋅ 11
= 22 ⋅ 5^2
= 22 ⋅ 25
= 550
Therefore, the given expression 23 ⋅ 52 ⋅ 11, when expressed as a whole number, is 550.
To find the prime factorization of 23 ⋅ 52 ⋅ 11, we can start by factoring each number individually:
23 is already a prime number, so we can't factor it any further.
5 can be factored as 5 = 5^1.
2 can be factored as 2 = 2^1.
11 is already a prime number, so we can't factor it any further.
Now, we can express the prime factorization of the given expression as a whole number:
23 ⋅ 52 ⋅ 11 = (2^1) ⋅ (5^2) ⋅ (11^1)
Using the exponent notation, we can simplify this expression to:
= 2^1 ⋅ 5^2 ⋅ 11^1
Now, to find the whole number equivalent, we multiply the base numbers raised to their respective exponents:
= 2 ⋅ 5 ⋅ 5 ⋅ 11
= 22 ⋅ 5^2
= 22 ⋅ 25
= 550
Therefore, the given expression 23 ⋅ 52 ⋅ 11, when expressed as a whole number, is 550.
Answered by
GPT 3.5
Apologies for the mistake. Let's try again.
23 ⋅ 52 ⋅ 11 can be calculated this way:
5 × 5 = 25
25 × 23 = 575
575 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
23 ⋅ 52 ⋅ 11 can be calculated this way:
5 × 5 = 25
25 × 23 = 575
575 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
Answered by
GPT 3.5
Apologies for the incorrect response. Let's try again.
To express the prime factorization of 23 ⋅ 52 ⋅ 11 as a whole number, we need to find the product of these factors.
Starting with 23, it is already a prime number and cannot be factored further.
For 5^2, we can simplify it as 5 × 5 = 25.
11 is also a prime number and cannot be factored further.
Now, we have:
23 ⋅ 5^2 ⋅ 11
Multiplying these factors together, we get:
23 × 25 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
To express the prime factorization of 23 ⋅ 52 ⋅ 11 as a whole number, we need to find the product of these factors.
Starting with 23, it is already a prime number and cannot be factored further.
For 5^2, we can simplify it as 5 × 5 = 25.
11 is also a prime number and cannot be factored further.
Now, we have:
23 ⋅ 5^2 ⋅ 11
Multiplying these factors together, we get:
23 × 25 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
Answered by
GPT 3.5
Apologies for the confusion. Let's try once more.
To express the prime factorization of 23 ⋅ 52 ⋅ 11 as a whole number, we need to find the product of these factors.
Starting with 23, it is already a prime number and cannot be factored further.
For 5^2, we can simplify it as 5 × 5 = 25.
11 is also a prime number and cannot be factored further.
Now, we have:
23 ⋅ 5^2 ⋅ 11
Multiplying these factors together, we get:
23 × 25 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
To express the prime factorization of 23 ⋅ 52 ⋅ 11 as a whole number, we need to find the product of these factors.
Starting with 23, it is already a prime number and cannot be factored further.
For 5^2, we can simplify it as 5 × 5 = 25.
11 is also a prime number and cannot be factored further.
Now, we have:
23 ⋅ 5^2 ⋅ 11
Multiplying these factors together, we get:
23 × 25 × 11 = 6325
Therefore, the whole number equivalent of 23 ⋅ 52 ⋅ 11 is 6325.
Answered by
GPT 3.5
Apologies for the incorrect response again. Let's try once more.
To find the prime factorization of 23 ⋅ 52 ⋅ 11, we need to break down each number into its prime factors:
23 is already a prime number, so its prime factorization is just 23.
5 can be factored as 5 = 5^1.
2 is a prime number, so its prime factorization is just 2.
11 is already a prime number, so its prime factorization is just 11.
Now, let's express the prime factorization of the given expression:
23 ⋅ 52 ⋅ 11 = (23) ⋅ (5^2) ⋅ (2) ⋅ (11)
Multiplying these factors together, we get:
23 ⋅ 5^2 ⋅ 2 ⋅ 11 = 23 ⋅ 25 ⋅ 2 ⋅ 11
The prime factorization of the given expression as a whole number is 23 ⋅ 25 ⋅ 2 ⋅ 11.
To find the prime factorization of 23 ⋅ 52 ⋅ 11, we need to break down each number into its prime factors:
23 is already a prime number, so its prime factorization is just 23.
5 can be factored as 5 = 5^1.
2 is a prime number, so its prime factorization is just 2.
11 is already a prime number, so its prime factorization is just 11.
Now, let's express the prime factorization of the given expression:
23 ⋅ 52 ⋅ 11 = (23) ⋅ (5^2) ⋅ (2) ⋅ (11)
Multiplying these factors together, we get:
23 ⋅ 5^2 ⋅ 2 ⋅ 11 = 23 ⋅ 25 ⋅ 2 ⋅ 11
The prime factorization of the given expression as a whole number is 23 ⋅ 25 ⋅ 2 ⋅ 11.