The order of magnitude of a physical quantity is that power of 10 which is closest to its magnitude. It gives an idea about how big or how small a given physical quantity is.
To determine the order of magnitude of a number N, we first express it as
N = n × 10x.
If 0.5 < n ≤ 5, then x will be the order of magnitude of N.
Few examples are illustrated in table given below:
Table: Order of magnitude
| Measure number N | Expressed in nearest power of 10 | Order of magnitude |
| 8 | 0.8 × 101 | 1 |
| 49 | 4.9 × 101 | 1 |
| 52 | 0.52 × 102 | 2 |
| 555 | 0.555 × 103 | 3 |
| 999 | 0.999 × 103 | 3 |
| 1001 | 1001×io3 | 3 |
| 753000 | 0.753 × 106 | 6 |
| 0.135 | 1.35 × 10-1 | -1 |
| 0.05 | 5 × 10-2 | -2 |
| 0.99 | 0.99 × 100 | 0 |
Question:
Write the order of magnitude of the following measurements:
(i) 25,710,000 m (ii) 0.00000521 kg.
Solution:
We first express each number in terms of nearest power of 10.
(i) 25,710,000 m =2.571 × 107 m
As 0.5 < 2.571 < 5
∴ Order of magnitude = 7.
(ii) 0.00000521 kg = 0.521 × 10-5kg
As 0.5 < 0.521 < 5 ∴ Order of magnitude = -5.
Question:
Write the order of magnitude of the following:
(i) 8
(ii) 49
(iii) 52
(iv) 999
(v) 1001
(vi) 753000
(vii) 0.05
(viii) 0.99.
Ans: 1, 1, 2, 3, 3, 6, – 2, 0
Table: Orders of Magnitude of length
| S. No. | Size of object or distance | Length (m) |
| 1. | Radius of a proton | 10-15 |
| 2. | Size of atomic nucleus | 10-14 |
| 3. | Size of hydrogen atom | 10-10 |
| 4. | Size of typical virus | 10-8 |
| 5. | Wavelength of light | 10-7 |
| 6. | Size of red blood corpuscle | 10-5 |
| 7. | Thickness of a paper | 10-4 |
| 8. | Height of a person | 100 |
| 9. | Height of Mount Everest | 104 |
| 10. | Radius of the earth | 107 |
| 11. | Distance of the moon from the earth | 108 |
| 12. | Radius of the sun | 109 |
| 13. | Distance of the sun from the earth | 1011 |
| 14. | Distance of Pluto from the earth | 1013 |
| 15. | Size of Milkway | 1021 |
| 16. | Distance to Andromeda galaxy | 1022 |
| 17. | Distance to the boundary of observable universe | 1026 |