The sun warms our planetary bodies, and the Moon creates the tides. The Moon orbits the Earth and in flip, the Earth orbits the sun. We see the Universe from a platform this is each rotating on its axis, and touring in an elliptical orbit across the solar.
Earth orbits the sun in 365.242 days. This orbital motion makes seasons in conjunction with the axial tilt of Earth, Sun's warmth makes clouds make rain. so most locations on this planet receive water and plants survive.
It is the earth's relationship to the solar, and the quantity of mild it receives, that is answerable for the seasons and biodiversity. the amount of solar a location gets relies upon the lean of the earth's axis and now not its distance from the solar.
Earth is a sphere or, extra efficaciously, an oblate spheroid, that is a sphere that may be a bit squished down on the poles and bulges a piece on the equator. alternatively, to be greater technical, the minor axis (the diameter thru the poles is smaller than the main axis the diameter via the equator
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Answer:
Visitation and camping
Explanation:
Many people visit Death Valley for Visitation and camping because it's one of the most of the beautiful places in California
Answer:
the fall of the Western Roman Empire.
Explanation:
Answer:
(B) As the cloud shrank, its gravitational potential energy was converted to kinetic energy and then into thermal energy.
Explanation:
From the theory of the formation of the solar system, the solar nebula which is a massive interstellar cloud flattened into a disk shape as it collapsed due to the gravitational potential energy which was converted to kinetic energy and ultimately thermal energy. This then allowed nuclear fusion to occur and a protosun was formed at the core of the nebula.
Initially, the particles that constitutes the solar nebula were moving randomly in an uncordinated fashion. As the gravitational pull reoriented the particles into a more coordinated pattern. The pull contracted the vast nebula into a smaller size and this was furnished with a kinetic energy. This energy resulted into the heating of the nebula and the centre became very hot. The gravitational pull caused an inward pull on the particles while the pressure of the condensed nebula resulted in an outward pull.