What is 480000 in integer notation
4.8 * 10 ^0
The form for scientific notation is a*10b where 1 <= a < 10, and b is an integer (positive or negative).
The general form of scientific notation is a*10b where 1 ≤ a < 10, and b is an integer.
In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.
In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.
4.8 x 105
4.8 * 10 ^0
480000 = four hundred eighty thousand.
The form for scientific notation is a*10b where 1 <= a < 10, and b is an integer (positive or negative).
The general form of scientific notation is a*10b where 1 ≤ a < 10, and b is an integer.
In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.
In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.
480000
In set builder notation, "n" typically represents an integer variable. It is often used to define sets of numbers, such as the set of all integers or specific subsets like even or odd integers. For example, the notation {n | n is an integer} describes the set of all integers, where "n" is a placeholder for any integer value.
The mantissa, or coefficient, is multiplied by an integer power of 10.
Exactly as it is 120,000 which is 1.2*105 in scientific notation
Scientific notation is a way of writing numbers that are too big or too small to be conveniently written in decimal form. In normalized scientific notation all numbers are written in the form a x 10^b (a times ten raised to the power of b) where a is a nonzero single-digit integer and b is an integer.