Electron-volts
One electron volt is the energy acquired by an electron when accelerated through a potential difference of 1 volt.It is equal to 1.602 × 10−19 joules.
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One electron volt is the energy acquired by an electron when accelerated through a potential difference of 1 volt.It is equal to 1.602 × 10−19 joules.
One newton metre is the distance travelled in the direction of applied force, (ie not the perpendicular distance from a fulcrum which is the NM when used to express torque)
Electron-volts | Newton-meters |
---|---|
0eV | 0.00Nm |
1eV | 0.00Nm |
2eV | 0.00Nm |
3eV | 0.00Nm |
4eV | 0.00Nm |
5eV | 0.00Nm |
6eV | 0.00Nm |
7eV | 0.00Nm |
8eV | 0.00Nm |
9eV | 0.00Nm |
10eV | 0.00Nm |
11eV | 0.00Nm |
12eV | 0.00Nm |
13eV | 0.00Nm |
14eV | 0.00Nm |
15eV | 0.00Nm |
16eV | 0.00Nm |
17eV | 0.00Nm |
18eV | 0.00Nm |
19eV | 0.00Nm |
Electron-volts | Newton-meters |
---|---|
20eV | 0.00Nm |
21eV | 0.00Nm |
22eV | 0.00Nm |
23eV | 0.00Nm |
24eV | 0.00Nm |
25eV | 0.00Nm |
26eV | 0.00Nm |
27eV | 0.00Nm |
28eV | 0.00Nm |
29eV | 0.00Nm |
30eV | 0.00Nm |
31eV | 0.00Nm |
32eV | 0.00Nm |
33eV | 0.00Nm |
34eV | 0.00Nm |
35eV | 0.00Nm |
36eV | 0.00Nm |
37eV | 0.00Nm |
38eV | 0.00Nm |
39eV | 0.00Nm |
Electron-volts | Newton-meters |
---|---|
40eV | 0.00Nm |
41eV | 0.00Nm |
42eV | 0.00Nm |
43eV | 0.00Nm |
44eV | 0.00Nm |
45eV | 0.00Nm |
46eV | 0.00Nm |
47eV | 0.00Nm |
48eV | 0.00Nm |
49eV | 0.00Nm |
50eV | 0.00Nm |
51eV | 0.00Nm |
52eV | 0.00Nm |
53eV | 0.00Nm |
54eV | 0.00Nm |
55eV | 0.00Nm |
56eV | 0.00Nm |
57eV | 0.00Nm |
58eV | 0.00Nm |
59eV | 0.00Nm |