Doppler blueshift

Doppler blueshift

z = -v/c | z | redshift v | velocity c | speed of light (≈ 2.998×10^8 m/s) (gives the nonrelativistic blueshift in the light spectrum of an object moving at velocity v directly toward the observer)

velocity | 3×10^6 m/s (meters per second)

redshift | -0.01001

Calculate the redshift using the following information: known variable | | v | velocity | 3×10^6 m/s The relevant equation that relates redshift (z) and velocity (v) is: z = -v/c Substitute known variables and constants into the equation: known variable | | v | velocity | 3×10^6 m/s constant | | c | speed of light | 2.99792×10^8 m/s | : z = -(3×10^6 m/s)/(2.99792×10^8 m/s) Cancel the units in -(3×10^6 m/s)/(2.99792×10^8 m/s): z = -(3×10^6)/(2.99792×10^8) Evaluate -(3×10^6)/(2.99792×10^8): Answer: | | z = -0.010007