Topic 4: Sun, Earth, Moon and the Solar System

... tides on Earth and positions of the Moon, the Sun, and Earth. (VII) Investigates lunar phases using models and observations. (VII) Compare and contrast solar and lunar eclipses. (VII) Explain why the planets stay in orbit around the sun and satellites stay in orbit around their planets.(VII) Compare ...

Studying Planets in the Solar System

... 6. Give the groups time to research and gather data about their planet. Remind them to address the ten questions selected by the class. 7. After their research is complete, have the groups create a presentation to share their planetary information with the class. Presentations may be in the form of ...

Final Exam Prep

... Review the Nebular Hypothesis (Section 1- How did the Solar System Form) Review your big super summary sheet that lists the characteristics of the Inner and Outer Planets. Terms: solar nebula, planetessimal, terrestrial planet, gas giant planet 5. Ch 28 Minor Bodies of the Solar System pp 718-744 Re ...

How space is explored?

... a.  INNER PLANETS:. Mercury, Venus, Earth (Terra), Mars b.  OUTER PLANETS: Jupiter, Saturn, Uranus, Neptune B.  There are other major parts of the Solar System. 1.  The Asteroid Belt is a ring of rock, ...

PDF

... planets in their places. 13. The time it takes for the earth to go round the sun. 15. A group of stars. 17. This is caused by a shadow and causes either the sun or the moon not to be seen. 19. The planet nearest the sun. 20. The 8th planet from the sun. It spins in a different direction from the oth ...

ASTR-1020: Astronomy II Course Lecture Notes - Faculty

... e) There is no magic going on here, just chemistry being powered by an energy source (i.e., the Sun). Mutations from cosmic rays and the UV radiation from the Sun cause further alterations to these long molecule chains =⇒ variation in lifeforms begin on Earth. Natural selection begins in earnest cau ...

Earth has formed in our solar system

... Material slowly makes its way into the center of this disk, forming a new star. While the star continues to grow, lumps form (solar nebula is heterogeneous) in the disk which will ultimately become planets. ...

fall_2000_final

... A. Venus has more volcanoes which expelled this gas into its atmosphere. B. Venus has a greenhouse effect while Earth does not. C. Venus never had large quantities of liquid water present on its surface. D. differentiation couldn’t happen on Venus so this gas remained in the atmosphere. E. more come ...

CHAPTER 4 FINAL REVIEW QUESTIONS MULTIPLE CHOICE

... overhead at noon in Syene. At Alexandria on the summer solstice, the sun is 1/50th of the circumference of the sky (about 7°) south of the zenith. Based on this information, what is the circumference of Earth? ...

2011_JCB_SS_Key_1_

... In the 12 hours time that the Earth was rotating or spinning East, the Moon was also making it’s own revolution East around the Earth. 12 hours later when the spot on the Earth should again be under a high tide bulge, the Moon is farther to the East, so Earth must rotate another 45 minutes East, for ...

CST Prep- 8th Grade Astronomy

... 1. The theory of how the universe was created is called the ____________________. 2. Which equation states that matter and energy are interchangeable? __________________ 3. All matter in the Universe today came from an original pin prick of limitless __________________. 4. Is the universe contractin ...

Solar System: 3rd Grade

... Geometric measurement: understand concepts of area and relate area to multiplication and to addition. 3.MD.5 Recognize area as an attribute of plane figures and understand concepts of area measurement. a. A square with side length 1 unit, called “a unit square,” is said to have “one square unit” of ...

Force and Motion How To Get and Hold Onto A Moon

... Mercury, closest planet to the Sun, doesn’t have a moon, nor does Venus. Mars, the fourth planet out, has two moons, but they are probably just a couple of big old rocks that ended up in Mars’ orbit after they were fully formed. It is suspected that Earth didn’t have a moon at rst, but acquired ...

2-The Earth in space

... The Inner Planets The inner planets are the smallest and warmest planets. They have hard surfaces made of rock. The inner planets revolve around the sun more quickly than the outer planets do. 1-Mercury is about the size of Earth’s moon Mercury has a thin atmosphere of carbon dioxide with a surface ...

Astronomy Final Study Guide - With Answers!!– Name: **This will be

... The sun will live longer than really large stars because the smaller the star, the slower the star burns through its fuel. Big stars burn through all of their fuel quickly, which causes them to have a short life. 27. Why won’t the Sun end in a huge explosion like a supernova? The sun does not have e ...

title of lesson plan - Discovery Education

... The union of atomic nuclei to form heavier nuclei, resulting in the release of enormous quantities of energy. Context: Fusion occurs when four hydrogen atoms are squeezed together to form two helium atoms. nebula ...

A Changing Planet - Illinois State University

... Further out, the dust grains accumulate into smaller object such as planets and comets. It takes about 100,000,000 years to form planet size objects. (Earth formed ~4.5 billion years ago)  Outer planets formed first.  Early planets are continually bombarded by large and small objects. ...

Cosmic Landscape Introduction Study Notes About how

... Definition of astronomical unit. For general reference, we can say that one astronomical unit (AU) represents the mean distance between the Earth and our sun. The AU is approximately 150 million kilometers or 93 million miles. It is approximately 8 light-minutes. Roughly how big across is the Milky ...

Microsoft Word - students_diffe

... 14. Most are fragments of large asteroids 15. Icy objects 16. Caused by the Earth passing through the debris path of a comet 17. Tail always points away from the Sun ...

Astronomy PowerPoint - Effingham County Schools

... they look like dirty snowballs. The ices contained by comets include: water, methane, ammonia and carbon dioxide. The ices sublimate off the nucleus when the comet nears the sun. A dust tail – which is the part of the comet easiest to see – is made of dust particles driven off the nucleus by escapin ...

Solar System has 8 planets instead of 9 — IAU official vote

... and brought three other objects into the cosmic club. Pluto has been considered a planet since its discovery in 1930 by the American Clyde Tombaugh. The ninth planet will now effectively be airbrushed out of school and university textbooks. “The eight planets are Mercury, Venus, Earth, Mars, Jupiter ...

ANSWER

... gas giant planets are much larger than the distances between the terrestrial planets. 8. What is the difference between the structure of the terrestrial and gas giant planets. ANSWER: Terrestrial planets are rocky and small with a thin gaseous atmosphere. Gas giant planets have a small rocky core wi ...

My Moon: Moon Phases - University of Louisville

... ● When objects collide, the contact forces transfer energy so as to change the objects’ motions. (4-PS3-3) ● The energy released [from] food was once energy from the sun that was captured by plants in the chemical process that forms plant matter (from air and water). (5-PS3-1) ● An object can be see ...

Document

... converted to energy (gamma rays). How much energy is converted from the rest energy into gamma rays in the collision? ...

Document

... Venus is the second planet from the Sun, orbiting it every 224.7 Earth days. It has the longest rotation period (245 days) of any planet in the Solar System, and, unusually, rotates in the opposite direction to most other planets. It has no natural satellite. It is named after the Roman goddess of l ...

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Comparative planetary science

Comparative planetary science or comparative planetology is a branch of space science and planetary science in which different natural processes and systems are studied by their effects and phenomena on and between multiple bodies. The planetary processes in question include geology, hydrology, atmospheric physics, and interactions such as impact cratering, space weathering, and magnetospheric physics in the solar wind, and possibly biology, via astrobiology.Comparison of multiple bodies assists the researcher, if for no other reason than the Earth is far more accessible than any other body. Those distant bodies may then be evaluated in the context of processes already characterized on Earth. Conversely, other bodies (including extrasolar ones) may provide additional examples, edge cases, and counterexamples to earthbound processes; without a greater context, studying these phenomena in relation to Earth alone may result in low sample sizes and observational biases.

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Comparative planetary science