The formula for the resolution of an objective lens is
R = (1.22(lamda))/(2*(NA))
Wavelength is the distance between repeating units of a propagating wave of a given frequency. For light waves, this value is often given in nanometers, abbreviated as "nm". A nanometer is 0.000000001 meters.
The oil immersion fills the space between the objective and the specimen and matches the refractive index of the glass coverslip and glass objective lens. At a given focal length, this allows you to acheive a greater numerical aperature (better light collection efficiency, better resolution).
The formula related to frequency and wavelength is Wavelength = 300000000 / Frequency (f) Wavelength = 300000000 / 30000000000 Wavelength = 1/100 Wavelength = 0.01 meter OR Wavelength = 10 milimeter
You haven't given units for 9.90. nm, wavenumbers? metres, centimetres? E=hc/lambda, speed of light in metres, wavelength in metres
The longest wavelength in the visible light spectrum is at the red end (at about 750nm) the lowest is violet (450nm). For a given intensity source the energy that can be generated is equal.The answer you are looking for is 720-680nm
S = (0.61 X λ)/(I x sin(x)) where: S = Resolution λ = wavelength I = Refractive index sin(x) = maximum angle of light gathering Both I and sin(x) are constants for a given objective lens, there product is referred to as N.A. or "Numerical Aperature".
According to Rayleigh Criteria, resolution is determined by the wavelength of imaging light (λ) and numerical aperture (ΝΑ) of the projection lens. Thus resolution is given by the following equation. R = k1 λ/ NA Where k1 is the process parameter describing the difficulty of the process
Infrared radiation is long wavelength radiation given out by stars.
(frequency) multiplied by (wavelength) = (speed of the wave)
. . . reduces by half.
a shorter wavelength means higher frequency at a given speed.
a shorter wavelength means higher frequency at a given speed.
a shorter wavelength means higher frequency at a given speed.
Frequency (f)=Speed of the wave(v)/wavelength l
Frequency = Speed/Wavelength. Since the speed is not specified, a proper answer cannot be given.
no options given to answer
The energy of one photon is given by its frequency X planck's constant Its frequency is given by the speed of light divided by the wavelength.