I was StarGreenhand this year. you need to excell above the others in your grade in SAE(supervised agricultural experiance), classroom and FFA. SAE, i raise livestock i show cattle and have several acres to farm. Classroom A all quarters, and lastly, be very active in your chapters FFA. It's up to you now! Good Luck!! : ) Christy
A Main Sequence star.
It can either become a neutron star or a black hole. If the star is between 8 and 15 solar masses, it will become an incredibly dense neutron star. If it is more than 15 solar masses, it will collapse and become an even denser black hole.
A low mass star will become a white dwarf star, eventually this will cool to become a black dwarf. A high mass star (at least 8 times the mass of our Sun) will form a neutron star or a black hole, after a supernova event.
No, unless it somehow acquires more mass. It requires more mass to become a neutron star.
nucleur fusion
The Greenhand pin is made of bronze.
Having a feel for plants.
Discovery Greenhand Chapter State American
Greenhand is the first. then discovery, then state, then American
Earning a greenhand degree means your involved in a local FFA chapter and you have basic knowledge of the FFA. It is the first degree available in the FFA. Typically, high school students earn this degree within the first year after they sign up to join the FFA.
The American FFA Degree is the award that goes with the Greenhand Degree in FFA.
You have to become a five star trainer first
after the star dies it has the potential to become a dwarf
Part of a binary star system.
A star that becomes a white dwarf simply does not have the mass to become a neutron star. White dwarfs are the the remnants of a star very similar to our own sun in mass, where it takes a much more massive star to create a neutron star, Like the star Betelgeuse is a prime example of a star that does not have the mass to become a black hole but is massive enough to become a neutron star.
A Main Sequence star.
The difference between the death of a small star and a massive star is what the become afterwards. A small star will typically become a red dwarf while a large star will become a neutron star or a black hole.