The Universe - Lancaster High School

... -Ice, dust, rock particles -”dirty snowballs” ...

Slide 1

... The Sun is revolving around the center of the Galaxy at a speed of half a million miles per hour, yet it will still take 200 million years for it to go around once. The Milky Way has a bulge, a disk, and a halo. Although all are parts of the same galaxy, each contains different objects. The halo and ...

Stars, Planets, Moons, too Doing the Solar System

... Doing the Solar System Boogaloo! ...

Document

... our Solar System: The chemical elements formed in the interiors of stars. Dying stars ejected material into interstellar space, and presolar grains and amorphous material condensed in stellar atmospheres of stars such as Red Giants, AGB stars, and supernovae. These materials survived the long journe ...

What is the universe???

... made up of hydrogen and helium • We can see these all over the Milky Way galaxy • Clouds begin to condense when gravitational pull of the matter in these clouds grows stronger • This is likely how our solar system came to be ...

Distances in Space

... Earth. How many astronomical units is Pluto from the Sun? 3. Earth is 149.6 million km from the Sun. If Saturn is 1,434 million km from the Sun. How many astronomical units is Saturn from the Sun? 4. Sunlight reaches Earth in 8.33 min. How long, in minutes, would it take sunlight to reach Pluto? ...

6/24/11 You in Outer Space Curriculum Map Clever Crazes for Kids

... Explain how our moon causes oceanic tides that shape Earth's land surface. ...

Slide 1

... distance of the earth from the sun which is 150 million km ...

Astronomy Practice Test

... C. are less than half but more than a fourth of space. D. take up an extremely small amount of space. 4. Compared to our galaxy, how big is our solar system? The solar system is... A. extremely tiny. B. about one-tenth of the galaxy. C. about one-third of the galaxy. D. over half of the galaxy. 5. O ...

AST101_lect_18

... •They are there - we just don't recognize them •They don't want to be found •We are under quarantine. •We are alone. ...

6th Grade Review II - pams

... • The moon appears to go through phases, because one side is always lit. • The phases of the moon are: new, waxing crescent, first quarter, waxing gibbous, full, waning gibbous, last quarter, and waning crescent. ...

astronomy - sfox4science

... orbits a planet. Just like the terrestrial planets, some moons also show evidence of geologic activity. For example, Earth’s moon has evidence of moonquakes and lava flows. Also, one of Jupiter’s many moons, Io, is the only satellite in our solar system known to have active volcanoes. In addition, i ...

Blinn College Department of Physics

... We are also communicating—although not deliberately—through radio waves emitted by broadcast stations. These have a 24-hour pattern, as different broadcast areas rotate into view. ...

Lecture11 - UCSB Physics

... • C)H and He were formed in the Big Bang, while the heavier elements have been slowly forming by collisions in cold interstellar gas clouds • D) H and some He were formed in the Big Bang, while the heavier elements have been slowly formed in the centers of stars over the life of the Universe. ...

02-Voyage to the Planets

... solar wind, leaving only the solid chunks behind. As they continued to circulate around the sun, they joined together forming larger chunks. This caused a strong gravity around them and pulled all the matter in space around them, forming the Terrestrial Planets (Mercury, Venus, Earth and Mars) ...

Lecture11 - UCSB Physics

... •C)H and He were formed in the Big Bang, while the heavier elements have been slowly forming by collisions in cold interstellar gas clouds •D) H and some He were formed in the Big Bang, while the heavier elements have been slowly formed in the centers of stars over the life of the Universe. ...

An earthllke planet would have a rocky mantle surround

... bomb. Nobel Laureate Robert Millikan said that humans would never tap the power of the atom. However, the Rare Earth hypothesis coincides with the Fermi Paradox about the absence of evidence for extraterrestrials. The Fermi Paradox postulates that we should have already made contact with extraterres ...

Galaxies and the Universe - Grandview Independent School

... • in simpler terms, space and all the matter and energy in it Can you think of something in • major components: the universe that cannot be – galaxies – solar systems – planets ...

100 Greatest Discoveries in Science

... Why was it so hard for people to accept his theory? It didn’t feel like the Earth was moving. 3. Planetary Orbits Are Elliptical (1605 – 1609) Johannes Kepler devises mathematical laws that successfully and accurately predict the motions of the planets in elliptical orbits. How was Johannes Kepler’s ...

Class 2 Solar System Characteristics Formation Exosolar Planets

... carbon, oxygen, ...). ...

TY Course Day 2 Friday Solar System

...  A meteor shower is a celestial event in which a number of meteors are observed to radiate from one point in the night sky. These meteors are caused by streams of cosmic debris called meteoroids entering Earth's atmosphere at extremely high speeds. ...

33_drake

... • Vast majority of species that every lived on earth are now extinct. ...

Attachment

... of dust and rock that are found in space. • Meteors are meteoroids that reach the atmosphere. • Meteorites are meteors that reach Earth. ...

Origin of Our Solar System

... accretionary disk model. The student is expected to: a) analyze how gravitational condensation of solar nebular gas and dust can lead to the accretion of planetesimals and protoplanets; b) investigate thermal energy sources, including kinetic heat of impact accretion, gravitational compression, and ...

Comets, asteroids, and meteors oh my!

... – Seen once only 76 years – Last seen in 1986 – Next time we will see Halley’s comet will be around 2062 this is a prediction ...

< 1 ... 54 55 56 57 58 59 60 61 62 ... 75 >

Panspermia

Panspermia (from Greek πᾶν (pan), meaning ""all"", and σπέρμα (sperma), meaning ""seed"") is the hypothesis that life exists throughout the Universe, distributed by meteoroids, asteroids, comets, planetoids and, also, by spacecraft in the form of unintended contamination by microorganisms.Panspermia is a hypothesis proposing that microscopic life forms that can survive the effects of space, such as extremophiles, become trapped in debris that is ejected into space after collisions between planets and small Solar System bodies that harbor life. Some organisms may travel dormant for an extended amount of time before colliding randomly with other planets or intermingling with protoplanetary disks. If met with ideal conditions on a new planet's surfaces, the organisms become active and the process of evolution begins. Panspermia is not meant to address how life began, just the method that may cause its distribution in the Universe.Pseudo-panspermia (sometimes called ""soft panspermia"" or ""molecular panspermia"") argues that the pre-biotic organic building blocks of life originated in space and were incorporated in the solar nebula from which the planets condensed and were further —and continuously— distributed to planetary surfaces where life then emerged (abiogenesis). From the early 1970s it was becoming evident that interstellar dust consisted of a large component of organic molecules. Interstellar molecules are formed by chemical reactions within very sparse interstellar or circumstellar clouds of dust and gas. The dust plays a critical role of shielding the molecules from the ionizing effect of ultraviolet radiation emitted by stars.Several simulations in laboratories and in low Earth orbit suggest that ejection, entry and impact is survivable for some simple organisms.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Panspermia