0
Want this question answered?
Be notified when an answer is posted
Add your answer:
Earn +20 pts
Do hydrogen make stars?
technically speaking, stars are first made of Hydrogen. The moment the star comes to life, it starts fusing together Hydrogen atoms, forming helium. when a star is nearing the end of its life, it starts fusing together helium and keeps on fusing until there is nothing more to fuse. then, the star dies.
What keeps DNA together?
DNA is kept together by hydrogen bonds. The bonds connect the bases together and gives DNA its double helix shape.
Why are atoms and compounds held together?
The atoms in compounds are held together by chemical bonds
What type of nuclei would most likely undergo fusion?
Hydrogen and oxygen. On the sun two hydrogen atoms and one oxygen atom are fused at the core which keeps the suns light going and giving it more energy. The result of this is water. H2( hydrogen 2 ) O( oxygen ) h2o
Why silicon has the highest melting point and argon has the lowest?
Silicon has the great molecular form which makes it very strong and requires a lot of energy to break this bonds. However, Argon has the lowest melting point because it has weak Van Der Waals forces which barely keeps this atoms together, so it does not require a lot of energy.
What is the charge of each of the subatomic particles in hydrogen?
The charge of the proton is positive while the charge of the electron is negative. This keeps the atom together. Unlike most atoms, the hydrogen atoms have only two particles in them.
How many atoms of hydrogen in cinnamon?
there is infinity + atoms because atoms are mad out of atoms so it keeps going
What is our sun fueled by?
Our Sun, as with all main-sequence stars, is heated by the energy of fusing hydrogen atom to make helium atoms. The gigantic gravity of a main-sequence star causes hydrogen atoms to be smashed together, or 'fused'. The huge heat that results keeps the Sun puffed up to its huge size. In another 4.5 billion years, more or less, the hydrogen will be largely used up, and the Sun will shrink to a point that helium atoms are smashed together, creating lithium atoms. When all the lithium atoms have been largely smashed together and used up, the Sun will shrink again, and beryllium atoms will result.
Do hydrogen make stars?
technically speaking, stars are first made of Hydrogen. The moment the star comes to life, it starts fusing together Hydrogen atoms, forming helium. when a star is nearing the end of its life, it starts fusing together helium and keeps on fusing until there is nothing more to fuse. then, the star dies.
State of matter that bonds keep together atoms?
The state of matter that keeps atoms together is solid. Liquids and gases allow atoms to break apart from each other.
What force keeps the nucleus together?
The inter nuclear forces bind the atoms and nucleus together . This force is the cause for the nucleus binded towards the atoms.
What is a type of bond that keeps atoms close together but is considered very weak?
The type of bond that keeps atoms close together but is considered very weak is the van der Waals force. It is an attractive force between uncharged particles.
What is the name of the process that involves a strong attractive force that keeps atoms together?
Chemical Bonding
What keeps DNA together?
DNA is kept together by hydrogen bonds. The bonds connect the bases together and gives DNA its double helix shape.
Why water have higher boiling point then other substance?
Becuase the Hydrogen bonds keeps the water atoms from separating until a high temperature is reached.
What is the source of the sun energy?
The sun shines because some of the nuclear energy is transformed into radiant energy. Enormous compression due to gravity and extremely high temperatures in the deep interior of the Sun fuse the nuclei of hydrogen atoms together to form helium nuclei. This is called thermonuclear fusion (a process that releases radiant energy, a small part of which reaches Earth).
What is a type of bond that keeps atoms close together but is considered very weak called?
van der waals forces
