science olympiad solar system div b 2007 joshua haislip
TRANSCRIPT
Science Olympiad
Solar System Div B 2007
Joshua Haislip
Event Parameters
Time Limit: around 50 minutes
Team: two students
Materials allowed:
Four-function calculatorHand-written, typed, computer generated resources (including books)
All resources must fit within area of 12’ X 12’ X 3’
Materials NOT allowed:
PDA, Cell Phone, any Electronic Devices
Format
Students will have a series of activities to work on at a single station or may move from station to station.
Questions should be formatted to utilize science process skills: inferences, predictions, problem solving, observations, formulating and evaluating hypotheses, interpreting data, and graphing.
request this poster http://chandra.harvard.edu/edu/request.html
Shockwaves from distant supernovae or gravity from nearby stars can trigger collapse.
Consists of dense regions of molecular hydrogen
Pillars are left after ‘erosion’ from the intense ultraviolet radiation of nearby, bright stars
Stellar Nurseries
around 3.5 light years
Evaporating Gaseous Globules
Protostars and Protoplanetary Disks
15 times Neptune’s orbit
As gas collapses it heats up
Before nuclear fusion and hydrostatic equilibrium is achieved, this ball of gas is known as a protostar
The disk of swirling dust and gas orbiting this protostar/star is called the protoplanetary disk
NICMOS Peers Through Dust to Reveal Young Stellar Disks. A
View of IRAS 04302+2247T Tauri Star
Forming
System
Sun-like Star
Currently 70% hydrogen, 28% helium, and 2% other metals
Fusion of hydrogen into helium is taking place in core
700 million tons of hydrogen are converted to helium each second
Red Giant
When solar-type stars run out of hydrogen in the core, they cool and begin to collapse
Collapsing causes temperature to rise, igniting a shell of hydrogen around the core
Star expands over 100 times its original size, core collapses further igniting helium fusion
The surface of our sun might swallow the Earth when it becomes a red giant
Planetary Nebula
After helium is depleted in core, star blows off outer layers leaving behind hotter star
High speed stellar winds from the new hot star slam into previously ejected material creating the nebula
White Dwarf
The core will eventually collapse to a white dwarf
Equations
Kepler’s Laws:
1: The orbit of a planet/comet about the Sun is an ellipse with the Sun's center of mass at one focus
2: A line joining a planet/comet and the Sun sweeps out equal areas in equal intervals of time
3. The square of the periods of a planet is proportional to the cube of its semimajor axes.
Newton determined the constant of proportionality:where:T = planet's sidereal periodr = radius of the planet's circular orbit G = the gravitational constant = M = mass of the sun
Weight Equation (remember that 1 lb = 4.45 N):
32
2 4r
GMT
total
221
d
mmGF
2
311
*10*67.6
skg
m
Suggestions:
Make organized notebook of objects in the solar system and their properties (ie. mass, average distance from the sun, composition, etc.)
Teach scientific notation and approximation! Many students waist a lot of times typing in the number 28389490302843848392933848. In astronomy, this can be approximated as 2.84 * 10^25.
Visit Morehead Planetarium and let me know when you are planning on coming
Schedule a solar system walkthis will teach scales, review planet properties, as well as give the students a sense of the size of our solar
system
Do not plan on learning everything! This will only serve to overwhelm you
Most Importantly: Get the students excited about astronomy!
Wikipedia
Use Wikipedia to obtain organized tables of information about planets and other objects in the solar system
www.wikipedia.org
Stellarium
Free virtual planetarium! See the sky as it looks at any time in the future or past from any place on Earth. Also zoom in on planets and Messier objects to see them as they would look through a telescope.http://www.stellarium.org/
Test your students’ Stellarium skills with my “Stellarium Challenge”
Test your students’ understanding of Kepler’s third law, as well as the weight equation with my lab “Measuring the Mass of Jupiter”: