GCSE Astronomy

unit 2 | tides & distances 🌊

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Astronomy

GCSE Astronomy

14 Terms

apogee

point of an orbit that is further away from focal point

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perigee

point of an orbit that is closer to focal point

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spring tide

occurs during the full & new moon
- the combined gravity of the sun & moon produces a stronger tide
  - higher high tide & lower low tides
- has nothing to do with the season
- occurs twice each lunar month
- moon is aligned with sun

<ul><li><p>occurs during the full & new moon</p><ul><li><p>the combined gravity of the sun & moon produces a stronger tide</p><ul><li><p>higher high tide & lower low tides</p></li></ul></li><li><p>has nothing to do with the season</p></li><li><p>occurs twice each lunar month</p></li><li><p>moon is aligned with sun</p></li></ul></li></ul>

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neap tide

occurs during the waxing & waning half-moons
the detracting gravity of the sun and moon produces a weaker tide
- lower high tides & higher low tides

<ul><li><p>occurs during the waxing & waning half-moons</p></li><li><p>the detracting gravity of the sun and moon produces a weaker tide</p><ul><li><p>lower high tides & higher low tides</p></li></ul></li></ul>

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diurnal tide

1 episode of high water and 1 episode of low water each day
occur in locations when the moon is farthest from the equator

<ul><li><p>1 episode of high water and 1 episode of low water each day</p></li><li><p>occur in locations when the moon is farthest from the equator</p></li></ul>

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semi-diurnal tide

2 episodes of equal high water and 2 episodes of low water each day
the second high tide rises to the same level it did in the 1st high tide
the second low tide also matches with the 1st low tide
occurs when the moon is directly over the equator
most common type of tidal pattern

<ul><li><p>2 episodes of equal high water and 2 episodes of low water each day</p></li><li><p>the second high tide rises to the same level it did in the 1st high tide</p></li><li><p>the second low tide also matches with the 1st low tide</p></li><li><p>occurs when the moon is directly over the equator</p></li><li><p>most common type of tidal pattern</p></li></ul>

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mixed tide

can have two episodes of high or low water per day
- two high or low tides are unequal
can either include both sets of unequal high or low waters or only one set of unequal high or low water
occurs when the moon is extremely far north or extremely far south of the equator

<ul><li><p>can have two episodes of high or low water per day</p><ul><li><p>two high or low tides are unequal</p></li></ul></li><li><p>can either include both sets of unequal high or low waters or only one set of unequal high or low water</p></li><li><p>occurs when the moon is extremely far north or extremely far south of the equator</p></li></ul>

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meteorological tides

tides affected by wind, barometric pressures, rainfall, ice melting, & land drying
example:
- storm surges: the wind & inverted barometric pressure combine to cause a dramatic increase in sea levels

<ul><li><p>tides affected by wind, barometric pressures, rainfall, ice melting, & land drying</p></li><li><p>example:</p><ul><li><p>storm surges: the wind & inverted barometric pressure combine to cause a dramatic increase in sea levels</p></li></ul></li></ul>

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doppler effect

the apparent change in the frequency of a wave
with light it’s also called “red shift, blue shift”
when a star or other luminescent object is moving away from our position then it appears to give off more red light
when a star or other luminescent object moves closer it appears to give off more blue light

<ul><li><p>the apparent change in the frequency of a wave</p></li><li><p>with light it’s also called “red shift, blue shift”</p></li><li><p>when a star or other luminescent object is moving away from our position then it appears to give off more red light</p></li><li><p>when a star or other luminescent object moves closer it appears to give off more blue light</p></li></ul>

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cosmological red shifts

the wavelength at which the radiation is originally emitted is lengthened as it travels through (expanded) space
cosmological red shift results from the expansion of space itself and not from the motion of an individual body

<ul><li><p>the wavelength at which the radiation is originally emitted is lengthened as it travels through (expanded) space</p></li><li><p>cosmological red shift results from the expansion of space itself and not from the motion of an individual body</p></li></ul>

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astronomical units

major unit used to measure space (AU)
made from measuring the mean distance from the center of the Earth to the center of the Sun
- 93,000,000 mi

<ul><li><p>major unit used to measure space (AU)</p></li><li><p>made from measuring the mean distance from the center of the Earth to the center of the Sun</p><ul><li><p>93,000,000 mi</p></li></ul></li></ul>

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light years

how long is a light-year in Earth years?
- 5,878,625,370,000 mi (9.5 trillion km)

<ul><li><p>how long is a light-year in Earth years?</p><ul><li><p>5,878,625,370,000 mi (9.5 trillion km)</p></li></ul></li></ul>

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parallax

the apparent displacement or the difference in apparent direction of an object as seen from two different points not on a straight line with the object especially

the angular difference in direction of a celestial body as measured from two points on Earth’s orbit

<ul><li><p>the apparent displacement or the difference in apparent direction of an object as seen from two different points not on a straight line with the object especially</p></li></ul><p><strong>OR</strong></p><ul><li><p>the angular difference in direction of a celestial body as measured from two points on Earth’s orbit</p></li></ul>

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parsecs

a unit of distance used in astronomy, equal to about 3.26 light years (3.086 x 10^13 km)
one parsec corresponds to the distance at which the mean radius of the Earth’s orbit subtends an angle of one second of arc