Quarter 1 Quiz 1 Redo Flashcards
Specific Gravity (formula, units (there are none), be able to calculate, etc)
Density of the object/density of water
Density of water = 1g/mL
Percent error, know and be able to calculate
( (Measured value - actual value) / actual value ) x 100
Mass vs Weight (define each, know the difference)
Mass: the amount of matter in an object
Weight: the amount of force acting on an object due to gravity, w = mass x gravity
Weight and mass are the same on Earth, only different when gravity is different like on other planets
Gravity acts on weight but doesn’t act on mass
Gravity (what is it, definition)
An attractive force between two objects that have mass
What two things contribute to gravity and what effect will each have on gravitational force
If mass increases, gravity will increase
If distance increases, gravity will decrease
In gravity formula, you divided stuff by distance
Density stratification
Substances separate by density
Most dense material ends up in center (toward or at core of planets) because gravity pulls on it the hardest
Inner vs Outer planets (which are which, and comparisons of general characteristics )
Terrestrial/inner:
Small
Higher density
Solid planetary surface
Composed of silicate rock or metals
Mercury, Venus, Earth, and Mars
Jovian/outer:
Large
Gaseous planets
Composed of gases and frozen compounds “gas giants”
Composed primarily of hydrogen and helium
Lower density
Jupiter, Saturn, Uranus, and Neptune
Planet definition
must orbit a star
must be big enough to have enough gravity to force it into a spherical shape
must be big enough that its gravity cleared away any other objects of a similar size near its orbit around the Sun
Dwarf planet definition
must orbit a star
must be big enough to have enough gravity to force it into a spherical shape
Moon definition
must orbit a planet or dwarf planet
also known as a natural satellite
no official lower limit on size but particularly small objects that fit this criteria are often called moonlets
General characteristics of the solar system (ecliptic plane, direction of rotation and revolution, exceptions to these)
Planets and satellites orbit in a common plane (the ecliptic plane)
Nearly all planets and satellites revolve and rotate in the same (counterclockwise)
Venus rotates backwards (clockwise)
Rotation axes of nearly all planets and satellites are roughly perpendicular to the plane of the ecliptic
Axis of Uranus lies almost parallel to ecliptic plane
Sun info
Biggest, brightest, and hottest object in the solar system
99.86% of the solar system’s mass
Sun is a medium size, main sequence star
Sun is composed of about 70% hydrogen and 28% helium
Mercury info
Mercury is solid and covered with craters
Mercury has almost no atmosphere
Mercury is the smallest planet by volume
Second densest planet but is made of densest materials (silicate rock and lots of metal)
Venus info
Similar in size to Earth, sometimes called Earth twin
Surface is rock and very hot, thick CO2 atmosphere completely hides surface and traps heat (runaway greenhouse effect)
Sunlight barely reaches surface b/c of atmosphere
Surface temp. hot enough to melt lead (900 fahrenheit)
Rock surface, dense, terrestrial planet, metal core
Earth info
5th largest planet
3rd from the sun
Liquid covers 71% of Earth’s surface
Earth has one moon
Moon info
Earth’s only natural satellite
Located about 240,000 miles from Earth
One of few moons that has atmosphere, but very thin and called exosphere
Slowly drifting further from Earth, called lunar escape