Fermi to Bohr radius Converter
β
Switch toBohr radius to Fermi ConverterHow to use this Fermi to Bohr radius Converter π€
Follow these steps to convert given length from the units of Fermi to the units of Bohr radius.
- Enter the input Fermi value in the text field.
- The calculator converts the given Fermi into Bohr radius in realtime β using the conversion formula, and displays under the Bohr radius label. You do not need to click any button. If the input changes, Bohr radius value is re-calculated, just like that.
- You may copy the resulting Bohr radius value using the Copy button.
- To view a detailed step by step calculation of the conversion, click on the View Calculation button.
- You can also reset the input by clicking on Reset button present below the input field.
Calculation
Calculation will be done after you enter a valid input.
Examples
1
Consider that the size of a proton is approximately 1.7 fermis.
Convert this size from fermis to Bohr radius.
Answer:
Given:
The length in fermi is:
Length(Fermi) = 1.7
Formula:
The formula to convert length from fermi to bohr radius is:
Length(Bohr radius) = Length(Fermi) / 52917.72489940979
Substitution:
Substitute given weight Length(Fermi) = 1.7 in the above formula.
Length(Bohr radius) = 1.7 / 52917.72489940979
Length(Bohr radius) = 0.0000321253418062
Final Answer:
Therefore, 1.7 f is equal to 0.0000321253418062 b.
The length is 0.0000321253418062 b, in bohr radius.
2
Consider that a nuclear interaction occurs at a scale of 10 fermis.
Convert this scale from fermis to Bohr radius.
Answer:
Given:
The length in fermi is:
Length(Fermi) = 10
Formula:
The formula to convert length from fermi to bohr radius is:
Length(Bohr radius) = Length(Fermi) / 52917.72489940979
Substitution:
Substitute given weight Length(Fermi) = 10 in the above formula.
Length(Bohr radius) = 10 / 52917.72489940979
Length(Bohr radius) = 0.00018897259886
Final Answer:
Therefore, 10 f is equal to 0.00018897259886 b.
The length is 0.00018897259886 b, in bohr radius.
Fermi to Bohr radius Conversion Table
The following table gives some of the most used conversions from Fermi to Bohr radius.
| Fermi (f) | Bohr radius (b) |
|---|
|
| 0 f | 0 b |
| 1 f | 0.00001889726 b |
| 2 f | 0.00003779452 b |
| 3 f | 0.00005669178 b |
| 4 f | 0.00007558904 b |
| 5 f | 0.0000944863 b |
| 6 f | 0.00011338356 b |
| 7 f | 0.00013228082 b |
| 8 f | 0.00015117808 b |
| 9 f | 0.00017007534 b |
| 10 f | 0.0001889726 b |
| 20 f | 0.0003779452 b |
| 50 f | 0.00094486299 b |
| 100 f | 0.00188972599 b |
| 1000 f | 0.01889725989 b |
| 10000 f | 0.189 b |
| 100000 f | 1.8897 b |
Fermi
A fermi (fm) is a unit of length used primarily in nuclear and particle physics to measure extremely small distances. One fermi is equivalent to 1 Γ 10^(-15) meters or 0.001 femtometers.
The fermi is defined as one femtometer, making it a convenient unit for expressing the sizes of atomic nuclei and subatomic particles.
Fermis are used in fields such as nuclear physics and particle physics to describe the scale of atomic nuclei and the range of fundamental forces. The unit provides precision for measuring distances at the subatomic level and understanding nuclear and particle interactions.
Bohr radius
The Bohr radius is a fundamental unit of length used in atomic physics to describe the size of the ground state orbit of an electron around a proton in a hydrogen atom. One Bohr radius is approximately 5.29177 Γ 10^(-11) meters or about 0.529 angstroms.
The Bohr radius is derived from the Bohr model of the atom, which describes the electron's orbit as quantized and stable. It provides a characteristic length scale for the electron's position in its lowest energy state, known as the ground state.
The Bohr radius is used in atomic and quantum physics to understand the size of atoms, atomic orbitals, and the fundamental structure of matter. It is a key parameter in the Bohr model and provides insight into the scale of atomic interactions and energy levels.
Frequently Asked Questions (FAQs)
1. What is the formula for converting Fermi to Bohr radius in Length?
The formula to convert Fermi to Bohr radius in Length is:
Fermi / 52917.72489940979
2. Is this tool free or paid?
This Length conversion tool, which converts Fermi to Bohr radius, is completely free to use.
3. How do I convert Length from Fermi to Bohr radius?
To convert Length from Fermi to Bohr radius, you can use the following formula:
Fermi / 52917.72489940979
For example, if you have a value in Fermi, you substitute that value in place of Fermi in the above formula, and solve the mathematical expression to get the equivalent value in Bohr radius.
{
"conversion": "fermi-bohr_radius",
"x_slug": "fermi",
"y_slug": "bohr_radius",
"x": "f",
"y": "b",
"x_desc": "Fermi",
"y_desc": "Bohr radius",
"category": "Length",
"symbol": "m",
"formula": "x / 52917.72489940979",
"precision": 16,
"examples": "<div class=\"example\">\n <div class=\"example_head\"><span class=\"example_n\">1</span>\n <h3 class=\"question\">Consider that the size of a proton is approximately 1.7 fermis.<br>Convert this size from fermis to Bohr radius.</h3></div>\n <h4 class=\"answer\">Answer:</h4>\n <p><strong>Given:</strong></p>\n <p>The length in fermi is:</p>\n <p class=\"step\"><span>Length<sub>(Fermi)</sub></span> = 1.7</p>\n <p><strong>Formula:</strong></p>\n <p>The formula to convert length from fermi to bohr radius is:</p>\n <p class=\"formula step\"><span>Length<sub>(Bohr radius)</sub></span> = <span>Length<sub>(Fermi)</sub></span> / 52917.72489940979</p>\n <p><strong>Substitution:</strong></p>\n <p>Substitute given weight <strong>Length<sub>(Fermi)</sub> = 1.7</strong> in the above formula.</p>\n <p class=\"step\"><span>Length<sub>(Bohr radius)</sub></span> = <span>1.7</span> / 52917.72489940979</p>\n <p class=\"step\"><span>Length<sub>(Bohr radius)</sub></span> = 0.0000321253418062</p>\n <p><strong>Final Answer:</strong></p>\n <p>Therefore, <strong>1.7 f</strong> is equal to <strong>0.0000321253418062 b</strong>.</p>\n <p>The length is <strong>0.0000321253418062 b</strong>, in bohr radius.</p>\n </div>\n <div class=\"example\">\n <div class=\"example_head\"><span class=\"example_n\">2</span>\n <h3 class=\"question\">Consider that a nuclear interaction occurs at a scale of 10 fermis.<br>Convert this scale from fermis to Bohr radius.</h3></div>\n <h4 class=\"answer\">Answer:</h4>\n <p><strong>Given:</strong></p>\n <p>The length in fermi is:</p>\n <p class=\"step\"><span>Length<sub>(Fermi)</sub></span> = 10</p>\n <p><strong>Formula:</strong></p>\n <p>The formula to convert length from fermi to bohr radius is:</p>\n <p class=\"formula step\"><span>Length<sub>(Bohr radius)</sub></span> = <span>Length<sub>(Fermi)</sub></span> / 52917.72489940979</p>\n <p><strong>Substitution:</strong></p>\n <p>Substitute given weight <strong>Length<sub>(Fermi)</sub> = 10</strong> in the above formula.</p>\n <p class=\"step\"><span>Length<sub>(Bohr radius)</sub></span> = <span>10</span> / 52917.72489940979</p>\n <p class=\"step\"><span>Length<sub>(Bohr radius)</sub></span> = 0.00018897259886</p>\n <p><strong>Final Answer:</strong></p>\n <p>Therefore, <strong>10 f</strong> is equal to <strong>0.00018897259886 b</strong>.</p>\n <p>The length is <strong>0.00018897259886 b</strong>, in bohr radius.</p>\n </div>\n ",
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"table1n": "<h2><span class=\"x\">Fermi</span> to <span class=\"y\">Bohr radius</span> Conversion Table</h2><p>The following table gives some of the most used conversions from Fermi to Bohr radius.</p><table><thead><tr><th scope=\"column\" role=\"columnheader\">Fermi (<span class=\"unit\">f</span>)</th><th scope=\"column\" role=\"columnheader\">Bohr radius (<span class=\"unit\">b</span>)</th><tr></thead><tbody><tr><td>0 <span class=\"unit\">f</span></td><td>0 <span class=\"unit\">b</span></td></tr><tr><td>1 <span class=\"unit\">f</span></td><td>0<span>.00001889726</span> <span class=\"unit\">b</span></td></tr><tr><td>2 <span class=\"unit\">f</span></td><td>0<span>.00003779452</span> <span class=\"unit\">b</span></td></tr><tr><td>3 <span class=\"unit\">f</span></td><td>0<span>.00005669178</span> <span class=\"unit\">b</span></td></tr><tr><td>4 <span class=\"unit\">f</span></td><td>0<span>.00007558904</span> <span class=\"unit\">b</span></td></tr><tr><td>5 <span class=\"unit\">f</span></td><td>0<span>.0000944863</span> <span class=\"unit\">b</span></td></tr><tr><td>6 <span class=\"unit\">f</span></td><td>0<span>.00011338356</span> <span class=\"unit\">b</span></td></tr><tr><td>7 <span class=\"unit\">f</span></td><td>0<span>.00013228082</span> <span class=\"unit\">b</span></td></tr><tr><td>8 <span class=\"unit\">f</span></td><td>0<span>.00015117808</span> <span class=\"unit\">b</span></td></tr><tr><td>9 <span class=\"unit\">f</span></td><td>0<span>.00017007534</span> <span class=\"unit\">b</span></td></tr><tr><td>10 <span class=\"unit\">f</span></td><td>0<span>.0001889726</span> <span class=\"unit\">b</span></td></tr><tr><td>20 <span class=\"unit\">f</span></td><td>0<span>.0003779452</span> <span class=\"unit\">b</span></td></tr><tr><td>50 <span class=\"unit\">f</span></td><td>0<span>.00094486299</span> <span class=\"unit\">b</span></td></tr><tr><td>100 <span class=\"unit\">f</span></td><td>0<span>.00188972599</span> <span class=\"unit\">b</span></td></tr><tr><td>1000 <span class=\"unit\">f</span></td><td>0<span>.01889725989</span> <span class=\"unit\">b</span></td></tr><tr><td>10000 <span class=\"unit\">f</span></td><td>0<span>.189</span> <span class=\"unit\">b</span></td></tr><tr><td>100000 <span class=\"unit\">f</span></td><td>1<span>.8897</span> <span class=\"unit\">b</span></td></tr></table>",
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"x_long_desc": "A fermi (fm) is a unit of length used primarily in nuclear and particle physics to measure extremely small distances. One fermi is equivalent to 1 Γ 10^(-15) meters or 0.001 femtometers. </p><p>The fermi is defined as one femtometer, making it a convenient unit for expressing the sizes of atomic nuclei and subatomic particles.</p><p>Fermis are used in fields such as nuclear physics and particle physics to describe the scale of atomic nuclei and the range of fundamental forces. The unit provides precision for measuring distances at the subatomic level and understanding nuclear and particle interactions.",
"y_long_desc": "The Bohr radius is a fundamental unit of length used in atomic physics to describe the size of the ground state orbit of an electron around a proton in a hydrogen atom. One Bohr radius is approximately 5.29177 Γ 10^(-11) meters or about 0.529 angstroms. </p><p>The Bohr radius is derived from the Bohr model of the atom, which describes the electron's orbit as quantized and stable. It provides a characteristic length scale for the electron's position in its lowest energy state, known as the ground state.</p><p>The Bohr radius is used in atomic and quantum physics to understand the size of atoms, atomic orbitals, and the fundamental structure of matter. It is a key parameter in the Bohr model and provides insight into the scale of atomic interactions and energy levels."
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