Unit 5: Review Game Questions

... disk and heated up. Planetesimals were formed by accretion of small particles that collided & stuck together growing larger. The greater gravity of planetesimals attracted more materials and they grew larger, forming planets. Leftover debris became asteroids and comets. All the orbital and rotationa ...

Name of Planet

... of the solar system till 2006. ...

Gravity: The Invisible Force (Planetary Unit)

... How does mass affect gravity? Does this question seem familiar? Hint: it’s on the ...

File

... Stars that are close to Polaris are visible in all seasons. These stars never appear to set, due to their proximity to one of the celestial poles. For example, Polaris is near the North Celestial Pole – and in North America, Polaris is visible for the entire night on every night of the year. The sam ...

here

... planet Mars, whose orbit was very accurately measured by the Danish astronomer Tycho Brahe • The problem was solved by the German mathematician Johannes Kepler, who found that planetary orbits are not circles, but ellipses. ...

PDF sample

... today the air, the oceans, and the land are changing, perhaps at a pace unequaled in our planet’s recent past. We would be foolish not to care about these unsettling global changes, and indeed for many of us, it seems impossible that we wouldn’t—our curiosity and care for our home comes as naturall ...

kindergarten - Math/Science Nucleus

... could not breathe on Venus, because the atmosphere would be very toxic to humans. This atmosphere gives Venus a brownish-yellow color. It also traps heat (the greenhouse effect) making the surface of Venus the hottest in the Solar System, about 750oK. Venus rotates very slowly, taking 243 days to c ...

how does earth`s orbit affect the seasons?

... Like the other planets in our solar system, Earth orbits the sun. One orbit takes approximately 365 days, or 1 year. During this orbit, the seasons slowly change. Summer solstice, occurring approximately June 21st every year, marks the beginning of summer for the Northern Hemisphere. At this date, t ...

Reading Center - Guilford County Schools

... two for each child. Explain that these are moon rocks. They are almost weightless, as they would be on the moon. Divide your class into two teams. Put one team on one side of the room behind a strip of masking tape. Put the other team on the other side of the room behind another strip of masking tap ...

Lecture 25

... •  Flows along the ground and eventually warms from being in contact with the surface •  Rises at ~60° N/S latitude ...

THE LATE HEAVY BOMBARDMENT IN THE INNER SOLAR SYSTEM

... objects that now populate the outer solar system; to avoid confusion I use the overall term “KBOs” for all of them. I also want to point out that I do not consider the objects that now populate the Kuiper Belt as the source of the LHB, but their progenitors when they were much closer to the sun (see ...

Solar System Formation

... in resonance with larger bodies (note corotating frame!) Janus and Epimetheus (Saturn) swap orbits every 4 years Cruithne and Asteroid 2002 AA29 around Earth ...

Planet Uranus Reading Comprehension Page

... years to make one revolution around the Sun. One year on Uranus equals about 84 years on Earth. Yet a day on Uranus, the time it takes for the planet to rotate once on its axis is fast, is just 17 hours and 14 minutes in Earth time. Due to prevailing winds that blow at about 450 miles per hour, the ...

Planet Parade - Playbooks Reader`s Theater

... In Planet Parade, you learned how important different characteristics of each planet are to the way they function in the solar system. You know some of Earth’s important characteristics, like the water found on its surface, and the oxygen in its atmosphere. Now let’s look at some of Earth’s properti ...

Projectile Motion - Eleanor Roosevelt High School

... • Make range longer by going higher for your starting point • Make range longer by having more velocity ...

Ans.

... scientists to calculate their position & velocity at any instant. It also controls the motion of aircrafts travelling through the solar system to the other planets. On what factors the orbital speed of a satellite depends? It depends upon the gravitational acceleration and height of satellite above ...

space-rocks - WLWV Staff Blogs

... resemble asteroids in the sense that they are made from left over break offs from the solar system formation. Comets however are icy dirtballs that form in the outer solar system. The icy surface is embedded with dust, grit, and other particles from space. • Many comets have elliptical orbits that c ...

Water not working hard

... Let's talk about Rotation 24 hours the Earth is Spinning Takes a day from morning' to evening When Planets spin like tops they are a whirling Next is called Revolution Planets Orbit in a circular motion Takes a year for Earth to make one pass and Sun's Gravity pulls on the Planets Orbiting Hey maybe ...

The Night Sky

... upper transit - the event that a celestial body crosses the meridian moving westward ...

v 2

... If the object is in equilibrium, it does not matter where you put the axis of rotation for calculating the net torque; the location of the axis is completely arbitrary. The Center of Gravity The center of gravity is that point in or near an object where all the torques due to the weight of the objec ...

Solar System (Tune – Twinkle, Twinkle Little Star)

... The Solar System in Motion (Tune – The Farmer wants a wife) The Earth turns around, The Earth turns around. Once a day, every day, The Earth turns around. The moon goes round the Earth, The moon goes round the Earth. Once a month, every month, The moon goes round the Earth. The Earth goes round the ...

Astronomy 4 Test #3 Practice 2. How were the rings of Uranus

... a. The cultures of the early, pre-telescopic observers all had room for only 5 planets in their religious and mythological interpretations of the sky. b. The strange, highly tilted rotational axis of Uranus made it seem too strange to consider a planet like the others. c. It’s far enough from the Su ...

Chapter 8

... The Solar System • The Solar System is occupied by a diversity of objects, but shows an underlying order in the dynamics of their movements • The planets form two main families: – solid rocky inner planets – gaseous/liquid outer planets • Astronomers deduce that the Solar System formed some 4.5 bil ...

PPT

... Planetary orbits are in nearly the same plane. ...

How the Solar System formed

... Planetary orbits are in nearly the same plane. ...

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Earth's rotation

Earth's rotation is the rotation of the planet Earth around its own axis. The Earth rotates from the west towards east. As viewed from North Star or polestar Polaris, the Earth turns counter-clockwise.The North Pole, also known as the Geographic North Pole or Terrestrial North Pole, is the point in the Northern Hemisphere where the Earth's axis of rotation meets its surface. This point is distinct from the Earth's North Magnetic Pole. The South Pole is the other point where the Earth's axis of rotation intersects its surface, in Antarctica.The Earth rotates once in about 24 hours with respect to the sun and once every 23 hours 56 minutes and 4 seconds with respect to the stars (see below). Earth's rotation is slowing slightly with time; thus, a day was shorter in the past. This is due to the tidal effects the Moon has on Earth's rotation. Atomic clocks show that a modern-day is longer by about 1.7 milliseconds than a century ago, slowly increasing the rate at which UTC is adjusted by leap seconds.

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Earth's rotation