14.95 in expanded notation
The Expanded Form (Notation) of 10 = (1 x 101) + (0 x 100)
A number in standard form is just the same way you are always used to seeing it. Like for example: 256. To write that same number using expanded notation, you have to think of the place values of each of the digits. The number is the sum of those values. 256 = (2 x 100) + (5 x 10) + (6 x 1). That's 256 in expanded notation.
5.9 x 109
that is expanded form but you can also write it in scientific notation which would be 6.09 x10^2
14.95 in expanded notation
It is 15^3 is exponential notation,3000 + 200 + 70 + 5 in expanded notation and 3.375^10^3 in standard form.
1357 is in expanded form. In scientific notation or standard form it would be 1.357 x 103.
The Expanded Form (Notation) of 10 = (1 x 101) + (0 x 100)
A number in standard form is just the same way you are always used to seeing it. Like for example: 256. To write that same number using expanded notation, you have to think of the place values of each of the digits. The number is the sum of those values. 256 = (2 x 100) + (5 x 10) + (6 x 1). That's 256 in expanded notation.
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)
A number expressed in expanded notation is when a number is expressed in its full form
5.9 x 109
Expanded Form of a Decimal Number:88.29 = 80 + 8 + 0.2 + 0.09Expanded Exponential Notation: Expanded Notation of 88.29 = (8 x 101) + (8 x 100) . (2/101) + (9/102)
The Expanded Notation (form) of 350 = (3 x 100) + (5 x 10) + (0 x 1).
Expanded notation of 74 = (7 x 10) + (4 x 1)
Expanded notation of 64 = (6 x 10) + (4 x 1)