It is 100.
10 squared. 10^2
Another way of writing ( 1.4503 \times 10^{-2} ) is in decimal form as ( 0.014503 ). This representation shifts the decimal point two places to the left due to the negative exponent.
The notation "3.134e -02" represents the number 3.134 multiplied by 10 raised to the power of -2. In decimal form, this is equivalent to 0.03134. The "e" stands for "exponent," and the negative exponent indicates that the decimal point is shifted two places to the left.
To represent the decimal number 175.23 in sign mantissa and exponent form, we first need to convert it into scientific notation. This number can be written as 1.7523 x 10^2. The sign of the mantissa will be positive since the original number is positive. The mantissa will be 1.7523, and the exponent will be 2. Therefore, the representation would be (+1.7523, 2).
The number 0.03015 in standard form is expressed as (3.015 \times 10^{-2}). This notation shifts the decimal point two places to the right, converting the number into a form where it is between 1 and 10, while indicating the original magnitude with the exponent.
10 squared. 10^2
In standard form, a number is expressed as a single digit followed by decimal point and then the remaining digits. Therefore, 0.0359 in standard form is 3.59 x 10^-2. This is because you move the decimal point two places to the right to convert 0.0359 to 3.59, and the exponent is -2 because you moved the decimal point to the right.
Another way of writing ( 1.4503 \times 10^{-2} ) is in decimal form as ( 0.014503 ). This representation shifts the decimal point two places to the left due to the negative exponent.
Oh, dude, you're hitting me with some math lingo now? Alright, so 630 in exponent form is 6.3 x 10^2. Basically, you just move that decimal point over two spots to the left to make it a number between 1 and 10, then slap a 10 with an exponent of 2 next to it. Easy peasy, lemon squeezy!
3.301 × 10-2 written in decimal form is 0.03301
330.1 x 10-2. You move the decimal point two places to the left.
To represent the decimal number 175.23 in sign mantissa and exponent form, we first need to convert it into scientific notation. This number can be written as 1.7523 x 10^2. The sign of the mantissa will be positive since the original number is positive. The mantissa will be 1.7523, and the exponent will be 2. Therefore, the representation would be (+1.7523, 2).
2 hours 10 minutes in decimal form is usually written as 2:10 or 2:10:00
It is: 2/10 = 0.2 as a decimal
See the related link about Standard Form. Standard form involves moving the decimal point so that there is only one non-zero digit to the left of the decimal point, then multiplying by an appropriate power of ten. If you moved the decimal point to the left, then the exponent of ten will be positive. If you moved the decimal point to the right, then the exponent of ten will be negative. The value of the exponent is equal to the number of places that the decimal is moved.Example:105 = 1.05 x 102 (the decimal was moved 2 places to the left).00356 = 3.56 x 10-3 (the decimal was moved 3 places to the right)
decimal form of 3.62 x 10-2 = 0.0362
420 = 4.2 × 102