As big as the galaxy and beyond
All atoms are elements. Single (or even a "few") atoms do not have the properties of large masses of atoms.
Ionic bonds are formed between atoms with large differences in electronegativity.
This is because they have a large number of hydrogen atoms attached to the carbon atoms
It depends on the atoms which you're referring to. Some atoms are small (eg hydrogen) and some are large (ie plutonium) It depends on the atoms which you're referring to. Some atoms are small (eg hydrogen) and some are large (ie plutonium)
Interaction of two atoms with a large difference in electronegativity results in the formation of an ionic bond.
all atoms are generally the same size, so "large atoms" would mean molecules.
All atoms are elements. Single (or even a "few") atoms do not have the properties of large masses of atoms.
Space
Ionic bonds are formed between atoms with large differences in electronegativity.
This is because they have a large number of hydrogen atoms attached to the carbon atoms
It depends on the atoms which you're referring to. Some atoms are small (eg hydrogen) and some are large (ie plutonium) It depends on the atoms which you're referring to. Some atoms are small (eg hydrogen) and some are large (ie plutonium)
This is because they have a large number of hydrogen atoms attached to the carbon atoms
proteins
Fission
celefidual bonds
The two main categories are (1) fusion: joining small atoms into larger atoms, such as hydrogen-1 into helium-4, and (2) fission, the splitting of certain large atoms, such as U-235.The two main categories are (1) fusion: joining small atoms into larger atoms, such as hydrogen-1 into helium-4, and (2) fission, the splitting of certain large atoms, such as U-235.The two main categories are (1) fusion: joining small atoms into larger atoms, such as hydrogen-1 into helium-4, and (2) fission, the splitting of certain large atoms, such as U-235.The two main categories are (1) fusion: joining small atoms into larger atoms, such as hydrogen-1 into helium-4, and (2) fission, the splitting of certain large atoms, such as U-235.
Yes, it is possible.