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To determine the speed at which the distant galaxy is receding from us, we can make use of the concept of redshift. The formula for calculating the redshift is given by:

z = (observed wavelength - rest wavelength) / rest wavelength

where z is the redshift. In this case, the observed wavelength is 400 nm, and the rest wavelength is 300 nm.

Plugging in the values into the formula:

z = (400 nm - 300 nm) / 300 nm z = 100 nm / 300 nm z = 1/3

The redshift (z) is equal to the velocity of recession (v) divided by the speed of light (c), according to the Hubble's law:

z = v / c

Rearranging the equation, we can solve for the velocity of recession:

v = z * c v = (1/3) * c

The speed of light (c) is approximately 299,792 kilometers per second.

v ≈ (1/3) * 299,792 km/s v ≈ 99,930.67 km/s

Therefore, the galaxy is receding from us at a speed of approximately 99,930.67 kilometers per second.

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