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Actually at 23.5 degrees it is never overhead because the Earth's axial tilt is only 23.44 degrees. However, for the purposes of this answer let us round up to 23.5 degrees.

The Tropic of Cancer is located at 23.5° North of the equator.

The Tropic of Capricorn lies at 23.5° South of the equator.

There is one day each year when the Sun is overhead (90 degrees) at these latitudes. In the North this is at the Summer Solstice in June (around the 21st) each year and in the South it is at the Winter Solstice in December (around the 21st) each year.

Q: When do the sun rays strike latitude 23.5 at an angle of 90 degrees?

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The angle of incidence equals the angle of reflection. Therefore, if your angle of incidence is 15 degrees, your angle of reflection equals that also. If it is 45 degrees, your angle of reflection is also 45 degrees, and so on.

Either the answer will be that they contain more solar energy, it strike's the earth at an angle greater than 90 degrees, or it could be that they spread energy over a larger surface area.

an angle

An angle.

180 degrees because opposite rays form a straight line.

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During the solstice (our summer for north, our winter for south).

23.37 degrees Meaning that the Poles are tilted at 23.37 degrees to the angle at which the Sun's rays strike the Earth.

The sun's rays are strongest at 0 degrees latitude.

The angle of incidence is ALWAYS equal to the angle of reflection, therefore the degree of the angle reflection is 55 degrees.

The Tropic of Cancer, located at approximately 23.5 degrees north latitude.

Light rays that strike a mirror are reflected according to the law of reflection, where the angle of incidence is equal to the angle of reflection. This is what allows us to see our reflection in a mirror.

the equater A+ 90 degrees

The angle of incidence equals the angle of reflection. Therefore, if your angle of incidence is 15 degrees, your angle of reflection equals that also. If it is 45 degrees, your angle of reflection is also 45 degrees, and so on.

The angle of incidence is equal to the angle of reflection. Therefore, if the angle between the incident and reflected rays is 60 degrees, the angle of incidence is also 60 degrees.

No, solar rays do not strike the equator at a 180-degree angle. The angle at which the sunlight strikes the equator varies throughout the year due to the tilt of the Earth's axis. This variation is what causes the seasons.

Either the answer will be that they contain more solar energy, it strike's the earth at an angle greater than 90 degrees, or it could be that they spread energy over a larger surface area.

Both specular and diffuse reflection obey the law of reflection by reflecting light rays at the same angle at which they strike the surface. In specular reflection, light rays are reflected uniformly at a single angle, while in diffuse reflection, light rays are scattered in all directions, but the angle of incidence is still equal to the angle of reflection.