It depends on which type of bond. If it is a covalent bond they will share electrons, and if its an ionic bond the atom with the lesser amount of electrons will transfer them to the other atom.
They create a ionic bond.
the co-ordinate co-valent bond is different in that the bonding pair comes from only one of the atoms called the donor atom. The other atom, the acceptor atom, simply accepts the sharing responsibilities. An example of such a bond is as follows: NH3 + H+ ------> NH3--->H+
There are many different types of bonds in the Hydrocarbon family. The most common is Alkane, where Carbon atoms link only once between other Carbon atoms. The formula for an Alkane is CnH(2n+2), where n is the number of Carbon atoms. There are also Alkenes wherein one pair of Carbon atoms have a double bond, but the rest have only single bonds. This formula is CnH(2n). Another common Hydrocarbon is the Alkyne. In an Alkyne, one pair of Carbon atoms share a triple bond. For an Alkyne, the formula is CnH[n+(n-2)]. Here are some examples. Alkane: C3H8 Alkene: C3H6 Alkyne: C3H4 The suffix of the element tells us the bonds that the Carbon atoms share. -ane: single bond, -ene: double bond, -yne: triple bond. The prefix of the element tells us how many Carbon atoms bond in this way.
Ethene means it has two carbon atoms in it.but we know,alkene must contain double bond at least for once somewhere in the carbon chain.But hydrogen atoms dont form double bonds.so methene can't be the 1st member bcoz it can't formdouble bonds as there is no other carbon and only hydrogn atoms.so,ethene is the 1st member where it can form one carbon carbon doble bond with the two carbon atoms present.and there is no such thing as methene,i suppose.....
When H+ forms a bond with H2O to form H3O+ the extra bond to oxygen is sometimes called a coordinate covalent bond (alternative name dative bond ) as both electrons that form the bond originate on the oxygen. Once formed the bond is identical to the other two covalent bonds.
They create a ionic bond.
Energy is stored in the potential energy of the electrons that make up that bond. This energy is released once the bond is broken.
The closest would be a covalent bond; however, metals do not really have bonds, but rather a 'sea of electrons' that all the metal atoms share at once, hence their general malleability as a group.
the co-ordinate co-valent bond is different in that the bonding pair comes from only one of the atoms called the donor atom. The other atom, the acceptor atom, simply accepts the sharing responsibilities. An example of such a bond is as follows: NH3 + H+ ------> NH3--->H+
There are many different types of bonds in the Hydrocarbon family. The most common is Alkane, where Carbon atoms link only once between other Carbon atoms. The formula for an Alkane is CnH(2n+2), where n is the number of Carbon atoms. There are also Alkenes wherein one pair of Carbon atoms have a double bond, but the rest have only single bonds. This formula is CnH(2n). Another common Hydrocarbon is the Alkyne. In an Alkyne, one pair of Carbon atoms share a triple bond. For an Alkyne, the formula is CnH[n+(n-2)]. Here are some examples. Alkane: C3H8 Alkene: C3H6 Alkyne: C3H4 The suffix of the element tells us the bonds that the Carbon atoms share. -ane: single bond, -ene: double bond, -yne: triple bond. The prefix of the element tells us how many Carbon atoms bond in this way.
b)a coordinate covalent bond is a covalent bond in which one atom contributes both bonding electrons, In a coordinate covalent bond, the shared electron pair comes from one of the bonding atoms. Once formed, a coordinate covalent bond is like any other covalent bond
If the hydrogen atoms get close enough together, and hot enough, they will eventually fuse into helium. This is what happens inside stars.
it gets made into new things
When electrons hit atoms at high speed some of the electrons are knocked away or broken off of the atoms. Once this breakage happens after impact, the atom then becomes a positively charged ion.
no they are made out of atoms which makes every thing so once again no
Depends on how small you want to go. The standard answer is generally atoms, but atoms are made up of protons, neutrons and electrons. Then protons and neutrons are made up of quarks and glueons. And once you get atoms, the word "substance" doesn't apply anymore, they're called particles
Grapes are examples of chemical bonds because of the way they all stick together close. Just like a molecule (which is what atoms are once they bond to two or more).