For a "spring tide" to occur, the Sun and Moon are lined up with the Earth; either near the new moon or near the full moon. This is because the Sun and the Moon each cause their own tidal forces on the Earth's oceans, and when the forces are lined up, they add together.
A "neap tide" occurs when the tidal forces of the Sun and the Moon work at right angles to each other, lessening the total effect of the tides. This happens when the Sun, Moon and Earth form a triangle pattern. This happens at the first or third quarter phases of the Moon.
Neap tide occurs when the moon, earth, and sun are making a right angle.
Spring tide occurs when they are in a straight line.
Spring tide is the highest tide
Neap Tide is when the tide is the lowest
A spring tide is occurs when the moon is in alignment with the earth and sun at the same time. This happens during the new moon and full moon phases. When a spring tide occurs, the low tides are REALLY low and the high tides are VERY high.
A neap tide is the exact opposite...the difference in tides is not as distinguishable. The high tides are fairly low and the low tides are not too low. This occurs when the moon is in its first or third (last) quarter phases (not in alignment with the sun).
During the full moon and new moon days, the sun, the earth and the moon are in the same line and the tides are highest. These tides are called spring tides. But when yhe moon is in its first and last quarter, the ocean waters get drawn in diagonally opposite directions by the gravitational pull of the sun and the earth resulting in low tides. These tides are called neap tides.
Neap tides are lower than normal tides and happen when the sun and moon are at right angles in relation to the earth. At full moon and new moon the moon sun and earth are in a line which causes spring tides these are higher than normal tides a new moon is when the moon starts its "cycle" again which happens every 27.3 days or something like that.
Correct answer:
For a "spring tide" to occur, the Sun and Moon are lined up with the Earth; either near the new moon or near the full moon. This is because the Sun and the Moon each cause their own tidal forces on the Earth's oceans, and when the forces are lined up, they add together.
A "neap tide" occurs when the tidal forces of the Sun and the Moon work at right angles to each other, lessening the total effect of the tides. This happens when the Sun, Moon and Earth form a triangle pattern. This happens at the first or third quarter phases of the Moon.
Source: Where_are_the_sun_moon_and_earth_during_a_neap_tide_and_a_spring_tide
At the new and full moon phases, we experience the higher-than-average "spring" tides. At the quarter-moon phases, we have the lower-than-average "neap" tides.
The order of the 3 bodies should be Sun -> Earth -> Moon.
The moon's phases result from the changing relative positions of the Earth, Moon, and Sun. It doesn't matter where the moon is when it's half-lit (or in its first quarter); its position relative to Earth and the Sun does matter, however. When the Sun and Moon are aligned on the same side of the Earth the Moon is "new", and the side of the Moon visible from Earth is not illuminated by the Sun. As the Moon waxes (the amount of illuminated surface as seen from Earth is increasing), the lunar phases progress from new moon, crescent moon, first-quarter moon, gibbous moon and full moon phases, before returning through the gibbous moon, third-quarter (or last quarter) moon, crescent moon and new moon phases.
The same side of the moon always faces us, regardless of the phase. When the moon is full that side is fully illuminated by the sun as the moon is approximately on the opposite side of Earth relative to the sun.
(Sun) (earth) (full moon) so the moon is behind the earth in a full moon.
The Earth goes round the Sun in an orbit, while the Moon travels round the Earth. If those orbits were in exactly the same plane we would have a solar eclipse at every new Moon and a lunar eclipse at every Full Moon. The Moon's orbit is at an angle to the Earth's, so at most full/new moons the Moon is above or below the plane of the Earth's orbit (known as the ecliptic). But if the Moon is crossing the ecliptic at full or new moon, we get an eclipse.
For example, when the Moon is opposite to the Sun, it is full moon; when it is in the same direction as the Sun, it is new moon.
New moon and full moon
· When there is no light reflecting of the moon, it means it is a full moon, whereas when the moon is reflecting all of the light towards us, it is a full moon. And between these two extremes, you see different amounts of reflected light.
They are in a line with Earth in the middle.
The order of the 3 bodies should be Sun -> Earth -> Moon.
The phases of the moon are the result of the ever-changing positions of the Earth, moon, and sun relative to one another. When the moon and the sun are on opposite sides of the earth (whereby the sun, earth, and moon form a straight line), a full moon occurs. When the moon and sun are on the same side of the earth (whereby the sun,moon, and earth form a straight line), a new moon occurs.
The Moon orbits the Earth, while the Earth is orbiting the Sun. Because the Moon is moving, we see it in different positions relative to the Sun; we call this the "phases of the Moon". Only when the Moon is on the opposite side of the Earth from the Sun will we see a "full" moon.
The moon's orbit relative to the earth is tilted 5 degrees.
When the moon is full, the full of the face of the moon that is facing earth is lit by the sun. The only way this can happen is if the earth is between the sun and the moon. We need the sun "behind us" to allow the sun to light up all of the moon's face so it can appear full.
The relative position of a spring tide is when the moon new or full is closest yo the earth.
The moon's phases result from the changing relative positions of the Earth, Moon, and Sun. It doesn't matter where the moon is when it's half-lit (or in its first quarter); its position relative to Earth and the Sun does matter, however. When the Sun and Moon are aligned on the same side of the Earth the Moon is "new", and the side of the Moon visible from Earth is not illuminated by the Sun. As the Moon waxes (the amount of illuminated surface as seen from Earth is increasing), the lunar phases progress from new moon, crescent moon, first-quarter moon, gibbous moon and full moon phases, before returning through the gibbous moon, third-quarter (or last quarter) moon, crescent moon and new moon phases.
The perigee occurs at 11:34 PM tomorrow night and the full moon is a minute.:)The Sun casts the shadow of the Earth on the Moon. The Earth, Sun, and Moon change positions, causing the phases.