Expanded Notation of 408 = (4 x 100) + (0 x 10) + (8 x 1).
Expanded notation of 900 = (9 x 100) + (0 x 10) + (0 x 1)
0.384 in expanded notation using exponential notation is: (0 x 10^0) + (3/10^1) + (8/10^2) + (4/10^3)
Expanded Notation of 3264 = (3 x 1000) + (2 x 100) + (6 x 10) + (4 x 1)
The Expanded Notation of 6,456 = (6 x 1000) + (4 x 100) + (5 x 10) + (6 x 1).
6820 is already written in standard notation. The same number is6.82 x 103 written in scientific notation6000 + 800 +20 + 0 written in expanded notation (1)(6x103) + (8x102) + (2x101) + (0x100) written in expanded notation (2)(6x1000) + (8x100) + (2x10) + (0x1) written in expanded notation (3)6(1000) + 8(100) + 2(10) + 0(1) written in expanded notation (4)
Expanded Notation of 60 = (6 x 10) + (0 x 1).
How is 1.008 written in expanded notation
Expanded notation is a way of writing a number as the sum of its individual place values. For example, the number 3,456 in expanded notation would be written as 3 x 1000 + 4 x 100 + 5 x 10 + 6 x 1.
To write 58 in expanded notation, you would break down the number by its place values. 58 is composed of 50 (5 tens) and 8 (8 ones). Therefore, in expanded notation, 58 can be written as 50 + 8, or 5 * 10 + 8.
Expanded Notation of 1,294 = (1 x 103) + (2 x 102) + (9 x 101) + (4 x 100)
Expanded Notation of 1,294 = (1 x 1,000) + (2 x 100) + (9 x 10) + (4 x 1)
no
If you mean scientific notation, it is 1.04812 x 105.
To express a number in expanded notation, you first need to divide it by a power of 10 such that the units is the greatest place value. In this case, you would divide by 100 to get 8.523. The next step is to add that power of ten to the sum as a multiplication. We use 100, which is the second power of 10. This can be written as 102. Thus 852.3 can be written in expanded notation as 8.523x102
Expanded Notation of 20 = (2 x 10) + (0 x 1)
Expanded Notation of 24 = (2 x 10) + (4 x 1)