BrainPOP - The Science Spot
... Watch the Lifecycle of a Star movie at BrainPOP - http://www.brainpop.com/ - to complete this page. 1. Stars change during their lifetime, which can be _______________ of years long. They start out as diffuse clouds of _______ and _________ drifting through space. __________ pulls the clouds togethe ...
... Watch the Lifecycle of a Star movie at BrainPOP - http://www.brainpop.com/ - to complete this page. 1. Stars change during their lifetime, which can be _______________ of years long. They start out as diffuse clouds of _______ and _________ drifting through space. __________ pulls the clouds togethe ...
Solar Nebula Theory
... Large (106 km), hot (106 K) region of diffuse gas surrounding Sun • Heated to such high temperatures by the Sun’s magnetic field • Visible during a total solar eclipse or with use of coronagraph ...
... Large (106 km), hot (106 K) region of diffuse gas surrounding Sun • Heated to such high temperatures by the Sun’s magnetic field • Visible during a total solar eclipse or with use of coronagraph ...
Supernova’s
... Type II Supernova • Similar to Type I Supernova, but these will leave behind a black hole or a neutron star. • If the mass of the core is less than 2 or 3 solar masses, it becomes a neutron star. • If the mass of the core is more than 2 or 3 solar masses, it becomes a black hole. ...
... Type II Supernova • Similar to Type I Supernova, but these will leave behind a black hole or a neutron star. • If the mass of the core is less than 2 or 3 solar masses, it becomes a neutron star. • If the mass of the core is more than 2 or 3 solar masses, it becomes a black hole. ...
Objects Beyond our Solar System
... it would have a mass of millions of kilograms. These stars are very small, just a few km across but they still have a mass that is as great as the sun. The gravity of these stars are incredible; if you dropped a marshmallow onto the surface of a neutron star it would have as much energy as a nuc ...
... it would have a mass of millions of kilograms. These stars are very small, just a few km across but they still have a mass that is as great as the sun. The gravity of these stars are incredible; if you dropped a marshmallow onto the surface of a neutron star it would have as much energy as a nuc ...
Badge Day - GBT
... 2. Life Cycle of a Star: What stages does a star go through? What stage is the Orion Nebula in? ...
... 2. Life Cycle of a Star: What stages does a star go through? What stage is the Orion Nebula in? ...
Star Life Cycle Computer Lab
... 2. The gas and dust that fills up much of space is called ________________. 3. Large collections of this dust and gas form ________________. 4. What is equilibrium? Stars 5. What is the main sequence? 6. Do the “ Interactive Lab”. Compare the time it takes to reach main sequence for: Small Low Mediu ...
... 2. The gas and dust that fills up much of space is called ________________. 3. Large collections of this dust and gas form ________________. 4. What is equilibrium? Stars 5. What is the main sequence? 6. Do the “ Interactive Lab”. Compare the time it takes to reach main sequence for: Small Low Mediu ...
Day 1212
... The Sun—A Main Sequence Star A solar mass is simply the mass of the Sun. For most stars, the relationship between mass and luminosity can be approximated by ...
... The Sun—A Main Sequence Star A solar mass is simply the mass of the Sun. For most stars, the relationship between mass and luminosity can be approximated by ...
eta carinae – nature`s own hadron collider
... ETA CARINAE IS ONE OF THE MOST MASSIVE STARS KNOWN. IT IS AROUND 100 SOLAR MASSES. THE UPPER LIMIT OF STAR SIZE IS THOUGHT TO BE AROUND 150 SOLAR MASSES. BECAUSE OF ITS SIZE, AND THE HIGH ENERGIES PRODUCED BECAUSE OF GRAVITY, IT IS UNSTABLE. ...
... ETA CARINAE IS ONE OF THE MOST MASSIVE STARS KNOWN. IT IS AROUND 100 SOLAR MASSES. THE UPPER LIMIT OF STAR SIZE IS THOUGHT TO BE AROUND 150 SOLAR MASSES. BECAUSE OF ITS SIZE, AND THE HIGH ENERGIES PRODUCED BECAUSE OF GRAVITY, IT IS UNSTABLE. ...
