547 = (5 x 100) + (4 x 10) + (7 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
Well, honey, to write 58 in expanded notation, you break it down into its place values. So, 58 is 50 + 8, which can be written as 5 x 10 + 8 x 1. Voila, that's how you sassily break down 58 in expanded notation!
Expanded Notation of 1,294 = (1 x 1,000) + (2 x 100) + (9 x 10) + (4 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
It is 5.47*10^5 in scientific 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.
Well, honey, to write 58 in expanded notation, you break it down into its place values. So, 58 is 50 + 8, which can be written as 5 x 10 + 8 x 1. Voila, that's how you sassily break down 58 in expanded notation!
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)
5.47*105
no
If you mean scientific notation, it is 1.04812 x 105.
Expanded Notation of 24 = (2 x 10) + (4 x 1)