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If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
Mainly, to revolve around the Earth in 15 days, the Moon would have to be closer (you can calculate the ratio using Kepler's Third Law). This would make the tides stronger.
the gravitational pull would have less of an effect because it's moving at a faster speed. And since the gravitational pull is what causes the earth's tides, then they would most likely be less effected.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
In that case, the Moon would have to be much closer to Earth (you can calculate the distance using Kepler's Third Law); the tides would be much stronger.
if there were no moon, there would be no light in the sky at night (earth would be a lot darker at night, earth's days would be longer (earth will rotate slower), and there will be no tides (the moon pulls the tides)
Mainly, to revolve around the Earth in 15 days, the Moon would have to be closer (you can calculate the ratio using Kepler's Third Law). This would make the tides stronger.
The Earth's 23.5 degree tilt with respect to the orbital or ecliptic plane causes the Sun to rise higher in the sky during the summer months and lower in the winter months.. The spring and autumnal equinoxes correspond to the days on which the Sun is positioned directly over the equator and is observed to rise directly in the Eastern sky, resulting in exactly the same amount of daylight and nighttime everywhere on Earth.
Neap and spring tides are about 7 days apart.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.
If the moon moved around the earth faster, while the earth maintained the same rotational speed, the period between spring and neap tides would be less.