
Inside the time of flight mass spectrometer
Electron Impact Ionisation
X (g) →?X+?(g) + e-
Electrospray Ionisation
X (g) + H+?→? XH+?(g)

Time of Flight Mass Spectrometer

Key Equations for Time of Flight Mass Spectrometry
where
KE = kinetic energy of the particles (J)
m = mass of the particles (kg)
v = velocity of the particles (ms-1)
t = time of flight of the particles (s)
d = the length of the flight tube (m)
Remember: all particles in the mass spectrometer are accelerated to the?same kinetic energy.?The time of flight is proportional to the square root of the mass of the ions, showing that the lighter the ion the faster it will pass through and the quicker it will hit the detector. The heavier the ion, the slower it will travel and the longer it will take to hit the detector.
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