To write the numbers 12, 0.2, and 0.005 in standard form, you express each number as a product of a coefficient and a power of ten. For 12, it is written as (1.2 \times 10^1). For 0.2, it becomes (2.0 \times 10^{-1}), and for 0.005, it is (5.0 \times 10^{-3}). Thus, the standard form representations are (1.2 \times 10^1), (2.0 \times 10^{-1}), and (5.0 \times 10^{-3}).
6 + 3 + 02 + 001 = 6 + 3 + 2 + 1 =12
In word form: ninety-four and eight hundred twenty-five thousandths In expanded form: 90+4+.8+.02+.005 In standard form: 94.825
.02
7000 + 400 +30 +.02 +5
The standard form (or scientific notation) for the number 4000 10 3 02 can be interpreted as 4000.10302. In standard form, this number is expressed as (4.00010302 \times 10^3), where the decimal point is moved to the right of the first non-zero digit. This notation makes it easier to handle very large or very small numbers.
6 + 3 + 02 + 001 = 6 + 3 + 2 + 1 =12
In word form: ninety-four and eight hundred twenty-five thousandths In expanded form: 90+4+.8+.02+.005 In standard form: 94.825
.02
7000 + 400 +30 +.02 +5
200000.00+2000.00+300.00+20.00+6.00+.30+.02
(Some of) the gases in the air and percentage: Nitrogen - 78.09 % Oxygen - 20.95% Argon - . 93% Carbon Dioxide - .02% -.04% Neon - .0018% Helium - .0005% Krypton - .0001% Hydrogen - .0005% Xenon - .000008% Ozone - .000002% Radon - Traces
Two hundredths is written as 0.02
$0.2 Sorry, .2 is twenty cents. Two cents would be $.02
To write 100.02 in word form, you would say "one hundred and two hundredths." The whole number is expressed as "one hundred," and the decimal part, ".02," is written as "two hundredths."
(Some of) the gases in the air and percentage: Nitrogen - 78.09 % Oxygen - 20.95% Argon - . 93% Carbon Dioxide - .02% -.04% Neon - .0018% Helium - .0005% Krypton - .0001% Hydrogen - .0005% Xenon - .000008% Ozone - .000002% Radon - Traces
date +"%d/%m/%y" date +"%d/%m/%y"
Filesystem Hierarchy Standard was created on 1994-02-14.