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As a product of its prime factors: 2*2*2*2*3 = 48
How about: 2 times 24 = 48
The two numbers that multiply to 48 and add to negative 16 are -12 and -4. This is because -12 × -4 = 48 and -12 + (-4) = -16.
The two numbers that add to get negative 36 and multiply to get negative 144 are -48 and 12. When you add them, -48 + 12 equals -36, and when you multiply them, -48 × 12 equals -144.
The two numbers that add to 2 and multiply to -48 are 8 and -6. When you add them together, 8 + (-6) equals 2. When you multiply them, 8 × (-6) equals -48.
The prime factorization of 48 is found by breaking it down into its prime components: ( 48 = 2^4 \times 3^1 ). Therefore, the prime numbers that multiply to give 48 are 2 and 3. There is no single "prime number of 48," but these two primes are its factors.
As a product of its prime factors: 2*2*2*2*3 = 48
How about: 8 times -6 = -48
How about: 2 times 24 = 48
To find the HCF of two numbers you first need to break them down into their prime factors. In this case we get: 36 = 2x2x3x3 48 = 2x2x2x2x3 The next step is to identify any common prime factors. In this case, both numbers have two 2s and a 3 as prime factors. Multiply these together and you get 12. Therefore, the HCF of 36 and 48 is 12.
The two numbers that multiply to 48 and add to negative 16 are -12 and -4. This is because -12 × -4 = 48 and -12 + (-4) = -16.
They are: 29+19 = 48
The two numbers that add to get negative 36 and multiply to get negative 144 are -48 and 12. When you add them, -48 + 12 equals -36, and when you multiply them, -48 × 12 equals -144.
There are 48 prime numbers.There are 48 prime numbers.There are 48 prime numbers.There are 48 prime numbers.
No two prime numbers can do that. 2 x 2 x 2 x 2 x 3 = 48
The two numbers that add to 2 and multiply to -48 are 8 and -6. When you add them together, 8 + (-6) equals 2. When you multiply them, 8 × (-6) equals -48.
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