Quick Find Conversion Table

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

Popular conversions

Popular units

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.

megawatts

The megawatt (MW) is equal to one million (106) watts. Many events or machines produce or sustain the conversion of energy on this scale, including large electric motors; large warships such as aircraft carriers, cruisers, and submarines; large server farms or data centers; and some scientific research equipment, such as supercolliders, and the output pulses of very large lasers. A large residential or commercial building may use several megawatts in electric power and heat. On railways, modern high-powered electric locomotives typically have a peak power output of 5 or 6 MW, although some produce much more. The Eurostar, for example, uses more than 12 MW, while heavy diesel-electric locomotives typically produce/use 3 to 5 MW. U.S. nuclear power plants have net summer capacities between about 500 and 1300 MW.