asat pre midterm review Flashcards
all planets orbit the same _______ ______
ecliptic plane
what direction does planet orbit
same direction with elliptical orbit
Sun rotation is
same direction as planet
Terrestrial planet charcteristics
Small & rocky
thin/no atmosphere
few moons
heavy elements
Jovian planet charcteristics
LArge gas/liquid
many moons
Lighter elements
Mercury simple stats
no moons, highly cratered
Venus stats
Thick Co2 atmosphere
460C sufrace T (greenhoiuse effect)
venus rotation is what
ROTATE BACKWARDS
Earth stats
No2 atm
23.4 degree tilt
Mars stat
2 moon
thin co2 atmosphere
25.2 tilt
polar ice caps
Jupiter stat
Over 60 moons
thick gaseous atm
Saturn stats
Over 60 moons
similar structure to jupiter
Uranus
Thin rings
98 tilt
Coldest
Neptune stats
Wispy clouds
winds up to 2000km.hr
pLUto ice content is
high
asteroid belt
- millions of asteroids between mars + jupiter
- 3% of earths moon
Kuiper belt
icy bodies around neptunes orbit
comets
small icy bodies with elliptical orbits
Mars thin Co2 causes
planet wide storms
Summer time
daylight longer, sun higher,
–> more direct
Winter time
days shorter, sun is lower
–> shallow angle
Summer/winter solstices based on
north being covered or lit up all the time
equinox are
when sun shine equally on both poles so 12 days
Solar eclipse
moon block sun
Lunar eclipse
earth block moon
moons orbit is tilted why
to avoid eclipses every month
Solar eclipse angle requirment
when earth orbit changed by 90 (when tilt of earth and moon align)
Only time solar eclipse can happen
New moon
New moon
invisible
rise and set with sun
only time solar eclipse can happen
Waxing cresent
3-4 days after new moon
rise +set 3 hours after sun
waxing cresent easiest to see
after sunsetW
Waxing quarter
1 week after new moon
rise + set 6 hours after sun
Waxing gibbous
10-11 days after newmoon
rise set 9 hours after sun
easiest at night. might set before sunrise
full moon
2 week after new moon
rise set 12 hours after sun
invisible most of night
Waning gibbous
10-11 days before NEXT nm
rise before midnight, up rest of night
Waning quarter
1 week before NEXT nm
6 hours set /rise before sun
rise around midnight
Waning crescent
2-4 days before next newmoon
rise around 3 hours before sunset
easiest to see before sunrise
Farther away in avocado elliptical diagram means
SLOWER, farther away, less distance to be covered
Closer in avocado elliptical diagram means
closer, more distance needs to be covered so FASTER
speed
rate of change
velocity
rate of change + direction
acceleration
rate of change of velocity
newton 1st law
object in motion stays in motion
Newton 2nd law
F=ma
Newton third law
equal and opposite force reciprocation
angular momentum formula
L = = iW= mvr
whats angular momentum explain w example
arms out, spin slow, arms in, spin faster
in F = (G m1m2)/d^2
double mass =
double force
in F = (G m1m2)/d^2 double distance
4x LESS force since it would be over 2^2
in F = (G m1m2)/d^2 , 1/2 distance
4x MORE force since its (1/2)^2 and your dividing by a fraction.
explain tidal force moon and earth relationship
Tidal force ON MOON FROM EARTH is larger than the force of MOON ON EARTH
(earth puts more tidal force on moon than the moon puts on earth)
tidal force:
The earth puts more force on the moon that it slows down rotation so much it became locked
The earth same side of moon always faces earth due to tidal forces
TIDAL RELATIONSHIP is _______. This causes _______ and __________ rotation
laggy
delays
slower
Spring tide (LARGE)
when the suns tidal forces line up with the moon and earths
what phase of the moon is spring tide
Full or new moon
how many high and low tides per day
2 each
What phase of the moon is neap tide
First quarter + third/last quarter
What is happening during a neap tide
In a quarter moon, sun and moon tidal forces cancel out partially
what angles are SUN and MOON during neap tide
right angle
Why does sun shine
nuclear fusion in core converting H into He & releasing energy
Core of sun
15 mil degrees
where nuclear fusion occurs
contains 50% of suns mass, 25% suns radius
where does nuclear fusion occur
core of sun
Radiative zone
- extends from 25% to 70% of suns radius
-49% of suns mass
- light and heat travel out from core (4million degrees)
Extends from 25% to 70% of suns radius
radiative zone
light and heat travel ____ from core into ______ _____ (4million degrees)
out
radiative zone
Connective zone
- outermost, extends 70%-100% radius
- ONLY 1% of suns mass
- least hot
Least hot zone in sun, why?
connective zone, lots hot gas rise then churn
percentage mass of zones:
core
radiative zone
Connective zone
50% mass
49% mass
1% mass
Photosphere (miso soup) =. visible ______ ______ from _______ to ________
surface changes
transparent
opaquw
how does photosphere surface change/look like
- granulated
- hot areas rise, cold areas sink
- particles form gas flow out, filling solar wind
what is the photosphere as a part of the sun
SURFACEEE!!!!
Sunspots
- comes in pairs (suns balls for cooling)
- cooler regions
- only 3500C
photosphere temp
5500C
core of sun temp
15mil Celcius
radiative zone temp
4mil ish C
Conective zone temp
2mil celcius
why are sunspots cooler parts of sun
cuz magnetism prevent hot gas from rising (you need to diarhea but you clench it)
Chromosphere (thin)
right above sun “surface”
reddish glow, low density
Corona
halo of gas ABOVE chromosphere and photospere
Corona only occurs only
during total eclipse
The —— in the corona allows —– —- to escape
halo
solar wind
Fusion
happens in light elements like helium
fission
heavy elements
Nuclear fusion is hard to make happen because
the protons repel
P-P energy
chance of 4 protons colliding (energy)
Positron
like an electron but with a + charge
Neutron:
ow mass but neutral charge
Gamma ray
type of light
Hydrostatic equilibrium
The core of star is very hot so it puts pressure out, but the gravitational pull counteracts it and pulls the star inwards
is hydrostatic equilibrium only in stars
no , planets have it too, thats why they round
Whats light
Electromagnetic wave that oscillates on wavelength
light has wavelegnth and frequency
wavelength measure
distance between 2 peaks
Frequency measure
of times in 1 second a peak pass
Interstellar medium
gas (mostly h and he) and dust between stars
molecular clouds as part of interstellar medium
Most dense part of interstellar medium, where stars are born
Molecular clouds
- cold and dense, enable star formation by gravitational collapse
- contain dust that blocks starlight (appeares black)
- molecules are formed in the dust grains, some being building block of life
gravitational collapse
in ward pull of g really strong
Star formation
begin with gravitational collapse of moleular cloud
protostar form out clouds center as gas collapses and heat up
3 ways molecular clouds are unique
- hydrogen in molecular clouds are molecules yet an atom everywhere else
- Molecular clouds are big enough to affect themselves and surroundings
- Only known place in UNIVERSE where stars form
how did sun form
- Something start molecular cloud collapse
- gravity drags it in
- gravity overcomes outward pressure in gas cloud (only in cold and dense areas)
high density area in cloud
strong pressure out
low temperature
low pressure out
In cloud fragments, ______ mass of one molecular cloud is enough for ________________ stars formation
total
thousands of
Small clumps/fragments of clouds become more pronounced, then…..
clouds fragment into separate clouds that continue to collapse and form stars
Molecular cloud process summarized
- Cold dense clouds get pulled in by gravity –> increases the density
- as the cloud collapses, gas compressions heat up cloud, molecules in gas collide to make photons
- some photons escape until becomes too dense, they (heat) get trapped and start slow down collapse
- at core, protostar forms ,increase mass as gas falls in
jets
protostars have jets of material that blow away surrounding gas: nakedness
Accretion disk
during collapse, gas rotationand looks like a flat disk egg
- hotter and faster than protoplanetary disk
Protoplanetary disk
new planet birth sites
light is a
wave but also a particle
our eyes see
absorption
—— determines colour
wavelength
list lights in order of least energy
radio < microwave < infrared < visible < uv < xray < gamma
we emit light via
thermal radiation
Blackbody radiation:
——- decides everything
hotter = (2 things)
Temp decides everything
brighter, bluer
On a blackbody graph, colder is
lower/ smaller line
on blackboduy graph, hotter is
bigger graphs, with SHORTER WAVELENGTHS
example of red light that not hot
red shirt SCATTERS red light, but its not 3000C
If light is black, a graph will show
dip to 0
light tells us
temp + composition (what you emit/absorb)
Doppler effect of light:
If something moving towards you,
it looks bluer, as its shifted to a higher frequency
Doppler effect of light:
when something moves away form you
Things look redder, as longer wavelength
redshift in spectra =
moving away from something
blueshift in spectra =
moving towards something
Measures of line of sight:
Direct
Across line of sight
Diagonally
can be measured
non measured
partially measured
solar flare
sudden burst of energy + radiation into space
higher frequency =
shorter wavelength
Longer wavelength =
lower frequency
