The simplest depiction of a number system is with a system of dot groupings similar to braille. This is critical to the function of a quantum computer.
To express 20 and 3 in simplest form, we need to find the greatest common factor (GCF) of the two numbers, which is 1 in this case. Therefore, 20 and 3 in simplest form remains as 20 and 3 respectively.
To express 3035 in its simplest form, we can factor it into its prime components. The prime factorization of 3035 is (5 \times 607), where both 5 and 607 are prime numbers. Thus, the simplest form of 3035 is its prime factorization: (5 \times 607).
Simplification of RatiosExample 1Express the ratio 6 : 9 in its simplest form.Solution:Note: The ratio 2 : 3 is in its simplest form since the numbers 2 and 3 have no common factor.
423/500
It is in simplest form since both are prime numbers.
To express 20 and 3 in simplest form, we need to find the greatest common factor (GCF) of the two numbers, which is 1 in this case. Therefore, 20 and 3 in simplest form remains as 20 and 3 respectively.
Express the ratio below in its simplest form. 12 : 6
To express 3035 in its simplest form, we can factor it into its prime components. The prime factorization of 3035 is (5 \times 607), where both 5 and 607 are prime numbers. Thus, the simplest form of 3035 is its prime factorization: (5 \times 607).
Simplification of RatiosExample 1Express the ratio 6 : 9 in its simplest form.Solution:Note: The ratio 2 : 3 is in its simplest form since the numbers 2 and 3 have no common factor.
30½
To express the ratio of 12 missed days to 180 school days in simplest form, we need to find the greatest common divisor (GCD) of the two numbers, which is 12. Dividing both numbers by 12 gives us the simplified ratio of 1 missed day to 15 school days. So, the simplest form of the ratio is 1:15.
It is 1 and 799/1000 in its simplest form
34/25
Nine-twentieths
423/500
17/50
the numbers 236 and 16 are in their simplest form