72000000 written in scientific notation is 7.2 × 107
It is: 6.4*10^6 m
Orbital notation shows how the electrons are arranged in the orbitals of the sublevels. Electron configuration shows only how many electrons are in each sublevel.
a way to make very large or small numbers easier to work with. Ex. 4,000 in scientific notation is 4 x 103. Also, .0004 would be 4 x 10-4. A positive exponent represents how many spaces you move the decimal point to the left. A negative exponent shows how many spaces you move the decimal to the right.
figure it out HOE!
demonstration
Whenever new data shows that its wrong.
3.33 x 10^10 or 3.33E10
Scientific notation shows things to the power of 10 So 35 in scientific notation is 3.5 x 10 Other examples are 350 is 3.5 x 102
It is: 3.08*10-10
2.11 x 10^4
The little number above the base. It is called the exponent.
2.17 × 10-3 written in standard notation is 0.00217
It shows the value of the number. The order of magnitude is readily seen.
15 000 894 written with 5 significant figures is 15 001 000, as the 894 rounds up to the nearest significant figure. 1.5001*10^7
That's scientific notation. 300 = 3 x 102
Scientific notation is when you have a # from 1 to 10 as your first factor without it being 10, and a power of 10 for the second factor in which the exponent shows how many decimal points moved. So, 0.1000102 would be 1.000102 x 10^-1
Answer t Which notation shows that P is a function of x?his question…
4.30 * 102. Although numerically equivalent to 4.3*102 the first shows that the number is accurate to 3 significant figures (if that IS the case), and not 2.