Convert kilogram-force square second/meter to Deuteron mass
Please provide values below to convert kilogram-force square second/meter [kgf·s²/m] to Deuteron mass [m_d], or Convert Deuteron mass to kilogram-force square second/meter.
How to Convert Kilogram-Force Square Second/meter to Deuteron Mass
1 kgf·s²/m = 2.93297571334989e+27 m_d
Example: convert 15 kgf·s²/m to m_d:
15 kgf·s²/m = 15 × 2.93297571334989e+27 m_d = 4.39946357002483e+28 m_d
Kilogram-Force Square Second/meter to Deuteron Mass Conversion Table
kilogram-force square second/meter | Deuteron mass |
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Kilogram-Force Square Second/meter
Kilogram-force square second per meter (kgf·s²/m) is a derived unit used to measure a specific combination of force, time, and length, often in specialized engineering contexts.
History/Origin
The unit originates from the kilogram-force, a gravitational force unit based on the kilogram mass, combined with time and length units for specific applications. It has been used historically in mechanical and engineering calculations before the widespread adoption of SI units.
Current Use
Currently, kgf·s²/m is rarely used in modern engineering, having been largely replaced by SI units. It may still appear in legacy systems or specialized fields requiring non-standard units.
Deuteron Mass
The deuteron mass (m_d) is the mass of a deuteron, which is the nucleus of deuterium consisting of one proton and one neutron, approximately 3.3436 × 10^-27 kilograms.
History/Origin
The deuteron mass has been determined through nuclear physics experiments involving mass spectrometry and nuclear reactions, with precise measurements becoming available in the 20th century as experimental techniques advanced.
Current Use
The deuteron mass is used in nuclear physics, astrophysics, and related fields to calculate nuclear reactions, binding energies, and in the calibration of mass spectrometers involving deuterium nuclei.