Quick Find Conversion Table

1 - 33
gigawatts to femtowatts
1= 1.0E+24
2= 2.0E+24
3= 3.0E+24
4= 4.0E+24
5= 5.0E+24
6= 6.0E+24
7= 7.0E+24
8= 8.0E+24
9= 9.0E+24
10= 1.0E+25
11= 1.1E+25
12= 1.2E+25
13= 1.3E+25
14= 1.4E+25
15= 1.5E+25
16= 1.6E+25
17= 1.7E+25
18= 1.8E+25
19= 1.9E+25
20= 2.0E+25
21= 2.1E+25
22= 2.2E+25
23= 2.3E+25
24= 2.4E+25
25= 2.5E+25
26= 2.6E+25
27= 2.7E+25
28= 2.8E+25
29= 2.9E+25
30= 3.0E+25
31= 3.1E+25
32= 3.2E+25
33= 3.3E+25
34 - 66
gigawatts to femtowatts
34= 3.4E+25
35= 3.5E+25
36= 3.6E+25
37= 3.7E+25
38= 3.8E+25
39= 3.9E+25
40= 4.0E+25
41= 4.1E+25
42= 4.2E+25
43= 4.3E+25
44= 4.4E+25
45= 4.5E+25
46= 4.6E+25
47= 4.7E+25
48= 4.8E+25
49= 4.9E+25
50= 5.0E+25
51= 5.1E+25
52= 5.2E+25
53= 5.3E+25
54= 5.4E+25
55= 5.5E+25
56= 5.6E+25
57= 5.7E+25
58= 5.8E+25
59= 5.9E+25
60= 6.0E+25
61= 6.1E+25
62= 6.2E+25
63= 6.3E+25
64= 6.4E+25
65= 6.5E+25
66= 6.6E+25
67 - 99
gigawatts to femtowatts
67= 6.7E+25
68= 6.8E+25
69= 6.9E+25
70= 7.0E+25
71= 7.1E+25
72= 7.2E+25
73= 7.3E+25
74= 7.4E+25
75= 7.5E+25
76= 7.6E+25
77= 7.7E+25
78= 7.8E+25
79= 7.9E+25
80= 8.0E+25
81= 8.1E+25
82= 8.2E+25
83= 8.3E+25
84= 8.4E+25
85= 8.5E+25
86= 8.6E+25
87= 8.7E+25
88= 8.8E+25
89= 8.9E+25
90= 9.0E+25
91= 9.1E+25
92= 9.2E+25
93= 9.3E+25
94= 9.4E+25
95= 9.5E+25
96= 9.6E+25
97= 9.7E+25
98= 9.8E+25
99= 9.9E+25

Popular conversions

Popular units

gigawatts

The gigawatt (GW) is equal to one billion (109) watts or 1 gigawatt = 1000 megawatts. This unit is often used for large power plants or power grids. For example, by the end of 2010 power shortages in China's Shanxi province were expected to increase to 5–6 GW and the installed capacity of wind power in Germany was 25.8 GW. The largest unit (out of four) of the Belgian Doel Nuclear Power Station has a peak output of 1.04 GW. HVDC converters have been built with power ratings of up to 2 GW.

femtowatts

The femtowatt (fW) is equal to one quadrillionth (10−15) of a watt. Technologically important powers that are measured in femtowatts are typically found in reference(s) to radio and radar receivers. For example, meaningful FM tuner performance figures for sensitivity, quieting and signal-to-noise require that the RF energy applied to the antenna input be specified. These input levels are often stated in dBf (decibels referenced to 1 femtowatt). This is 0.2739 microvolt across a 75-ohm load or 0.5477 microvolt across a 300-ohm load; the specification takes into account the RF input impedance of the tuner.