- Earth's rotation on its axis โ Daily Motion
| Key Point | Details |
| Rotation Period | 23 hours 56 minutes 6 seconds (Sidereal Day) |
| Direction | West to East |
| Rotation Speed | Maximum at Equator โข Minimum at poles |
| Tilt of Earth's Axis | 23ยฝยฐ |
| Inclination of Earth's axis relative to orbital plane | 66ยฝยฐ |
| Speed at Equator | 1670 km/hr |
- Occurrence of Day and Night
- Change in direction of winds and ocean currents
- Tides in oceans
โก Quick Recall
Axis Tilt = 23ยฝยฐ ยท Inclination to orbital plane = 66ยฝยฐ โ (90ยฐ โ 23ยฝยฐ = 66ยฝยฐ)
- Along with rotation, Earth's movement around the Sun โ Annual Motion
| Key Point | Details |
| Revolution Period | 365 days 6 hours 9 minutes 9 seconds |
| Path of Revolution | Anticlockwise, Elliptical path |
| Effects | Change in seasons โข 6-month day and 6-month night at poles โข Determination of year duration |
- At an interval of 4 years
- Number of days in a year โ 366 days
- February month โ 29 days
- Due to the tilt of Earth's axis, days and nights become longer or shorter
| Position | Details |
| Minimum โ Perihelion | 3 January โ 147 million km |
| Maximum โ Aphelion | 4 July โ 152 million km |
๐ Apside Line
Line joining Perihelion and Aphelion
โ Exam Trap
Perihelion (nearest, 3 Jan) โ Aphelion (farthest, 4 July) โ counter-intuitively Earth is closest to the Sun during Northern Hemisphere winter.
- Limits of Sun's Uttarayan (northward) and Dakshinayan (southward) movement
- Point of maximum difference in day-night duration
Summer Solstice
Also known as Cancer Sankranti
- Sun's rays fall vertically on Tropic of Cancer
- Longest day in Northern Hemisphere (21 June)
- Higher temperature at North Pole
- 6-month long day begins at North Pole
Winter Solstice
Also known as Capricorn Sankranti
- Sun's rays fall vertically on Tropic of Capricorn (22 December)
- Longest day in Southern Hemisphere
- 6-month long day begins at South Pole
- Maximum temperature at South Pole
- Midnight Sun in Norway โ 21 June
- Shortest day in Northern Hemisphere โ 22 December
- Summer Solstice in Southern Hemisphere โ December
- 21 March and 23 September โ Equal day and night globally
โก Quick Recall
Summer Solstice = 21 June (N. Hemisphere longest day) ยท Winter Solstice = 22 December (N. Hemisphere shortest day)
- Sun's vertical rays fall on the Equator
- Equal day and night everywhere
- No pole tilting towards the Sun
Vernal Equinox โ 21 March
- Northern Hemisphere โ Spring
- Southern Hemisphere โ Autumn
Autumnal Equinox โ 23 September
- Northern Hemisphere โ Autumn
- Southern Hemisphere โ Spring
โ Exam Trap
Vernal Equinox brings
Spring to the Northern Hemisphere but
Autumn to the Southern โ the season label flips depending on hemisphere.
- Condition: Moon comes between Sun and Earth (Conjunction position)
- Time: New Moon (Amavasya)
Total Solar Eclipse
Full Sun covered
Partial Solar Eclipse
Partial Sun covered
Annular Solar Eclipse
Ring of Sun visible around Moon
- Corona of the Sun (Ultraviolet rays) visible
- Diamond Ring phenomenon
- Dark Shadow: Umbra
- Light Shadow: Penumbra
โก Quick Recall
Umbra = Dark/Complete shadow ยท Penumbra = Light/Partial shadow
- Condition: Earth comes between Sun and Moon (Opposition position)
- Time: Full Moon (not on every full moon)
- Types: 1) Partial 2) Complete
- Difference in Axis of Moon and Earth โ 5ยฐ
Super Moon
Moon closest to Earth
Blue Moon
Two full moons in one month
- Sun, Moon, and Earth in one line โ Syzygy
- Moon's nearest distance from Earth: Perigee
- Moon's farthest distance from Earth: Apogee
- Maximum 7 lunar and solar eclipses possible in a year
โ Exam Trap
Perigee (nearest) and Apogee (farthest) are often swapped with Perihelion/Aphelion (Sun-Earth distances) โ Perigee/Apogee apply to the
Moon, Perihelion/Aphelion apply to the
Sun.
- Rise of sea water (Tide) and fall of sea water (Ebb)
Cause of Occurrence
- Gravitational pull of the Sun
- Gravitational pull of the Moon
- Centrifugal force of Earth
Theory
Progressive Wave Theory (William Whewell)
Spring Tide (High Tide)
- Sun, Earth, and Moon in a straight line
- Time โ Full Moon and New Moon
Neap Tide (Low Tide)
- Sun, Earth and Moon at right angles
- Time โ 7th and 8th day of Krishna and Shukla Paksha
- Time gap between two tides โ 12 hours 26 minutes
- World's highest tide: Bay of Fundy โ Nova Scotia (Canada)
- Generally 7-day gap between Spring and Neap tides
- Tidal Energy (in coastal areas), helpful in fisheries
โก Quick Recall
Spring Tide โ Sun+Moon aligned (Full/New Moon) ยท Neap Tide โ Sun+Moon at right angles