Announcements

                        
The following is a list of supplies needed for THE A TEAM:

SUPPLIES:

- stapler (full-size for home or mini-size for school)
- four 3-ring binders, preferably in different colors (students may share 
binders for subjects, as long as there are separate sections for each 
subject)
- dividers for each binder
- loose-leaf paper (no spiral paper, please). Replenish as needed.
- 3 or more pens - blue or black (to be kept in binder).
- 3 or more #2 pencils with erasers (to be kept in binder).
- a scissors
- colored pencils - set of 8 or 12
- graph paper, small pack
- 3X5 index cards
- white out (FOR HOME USE ONLY)
- highlighters - 3 different colors
- a scientific calculator
- one metric/customary ruler
- one protractor
- one compass
- one box of tissues (to be handed in to the first TEAM member student sees 
  on day one)
- 2 marble composition books (one for ELA and one for math)
- Independent reading book (a book of your choice that you will read during
  "down time")

VAN WYCK MISSION STATEMENT

The Van Wyck Junior High school faculty, staff, and administration, in 
partnership with the parents, students, and community will provide a safe
and disciplined learning environment that promotes the academic, 
intellectual,personal, and social development of our children.



EARTH SCIENCE VOCABUALARY:

Honors Earth Science		EARTH IN SPACE – 
Vocabulary                               

ALTITUDE = the angle of a celestial body above the observer’s horizon

APHELION = the point in a planet’s orbit that is farthest from the Sun

APOGEE = the point in the Moon’s elliptical orbit around the Earth where the 
         Moon is farthest from the Earth

APPARENT DIAMETER = how large an object looks, which depends upon its size 
                    and distance from an observer

APPARENT SOLAR DAY = the time required for the Sun to go from its highest 
                     point in
                     the sky on one day to its highest 
                     point in the sky the next day

AZIMUTH = the distance of a celestial object, in degrees, measured clockwise 
          from the due north position

CELESTIAL SPHERE = an imaginary sphere encircling the Earth on which all 
                   objects in the sky appear

ELLIPSE = a closed curve around two fixed points called foci

FULL MOON = the phase of the Moon when the entire lighted portion of the Moon 
            is facing the Earth

HORIZON = the line around the edge of the Earth where the celestial sphere 
          meets the Earth

PARALLELISM = the Earth’s axis remains parallel to its previous position as 
              the Earth revolves around the Sun; the Earth’s axis is always 
              pointing in the same direction

PERIGEE = the point in the Moon’s elliptical orbit around the Earth where the 
          Moon is closest from the Earth

PERIHELION = the point in a planet’s elliptical orbit that is closest to the 
             Sun

PHASES = the shape of the lighted portion of a celestial object; the amount 
         of the lighted portion seen varying in a cyclic fashion

SIDEREAL MONTH = the time it takes for the Moon to complete one revolution 
                 around the Earth (27-1/3 days)

SYNODIC MONTH = the time it takes for the Moon to complete a cycle of phases 
                (29-1/2 days)

WANING = when the left hand portion of the Moon seems to shrink, as less and 
         less of the lighted portion becomes visible from Earth

WAXING = when the right hand portion of the Moon seems to “grow,” as more and 
         more of the lighted portion becomes visible from Earth

ZENITH = the point on a celestial sphere that is directly overhead with 
         respect to an observer (90°)


Honors Earth Science		EARTH IN SPACE – Objectives

By the conclusion of this unit you should be able to:

1.  Collect data on the motions of objects in the sky
2.  Draw inferences about Earth motions and explain day & night and the 
    seasons 
3.  Analyze a model of the Earth & Sun, and create a model & evaluate it for 
    its applicability to explain day & night, and/or the seasons
4.  Draw inferences about Earth motions from evidence such as the Coriolis 
    Effect And the Foucault pendulum
5.  Draw inferences from celestial and terrestrial observations relating 
    frames of reference for time and Earth motion
6.  Analyze models of the Earth, Moon, Sun and our solar system
7.  Define the term LIGHT-YEAR and relate sizes and distances in our solar 
    system, a galaxy, and the universe
8.  Use SCIENTIFIC NOTATION (powers of 10) to describe numers
9.  Explain complex phenomena, such as tides, variations in day length, 
    apparent motion of the planets, solar insolation, and annual traverse of 
    the constellations
10. Describe current theories about the origin of the universe and the solar 
    system.



 
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