So they could use the metal for makeing ships, guns, cars, etc, because they were running out.
I know that the government asked citizens to donate metal (for bullets) and bacon grease (for rubber).
During both World Wars, the United States government tried to control the economy at home by rationing certain items in the grocery stores, like sugar and butter. They also rationed gasoline. The people were also asked to donate metal items for recycling and to buy Savings Bonds to fund the war efforts.
to kill people
Yes, all metal was needed desperately and British people even gave their pots and pans to make weapons.
People grew gardens in their yards called Victory Gardens so the soldiers could have more food. Women worked in production factories to help the war effort. People gave metal cans, toys and spare peices to the government so it could be used to build weapons.
I know that the government asked citizens to donate metal (for bullets) and bacon grease (for rubber).
I know that the government asked citizens to donate metal (for bullets) and bacon grease (for rubber).
If a non-metal combines with a metal, then the metal will donate electrons and the non-metal will accept electrons. An ionic bond is the result to form an ionic compound. If the non-metal combines with another non-metal, then both will share the electrons resulting in the formation of a covalent bond between them. The molecule is known as covalent compound.
During World War 2, women would donate items that were made of metal to help with the war effort. The metal could be used to make weapons and vehicles.
During both World Wars, the United States government tried to control the economy at home by rationing certain items in the grocery stores, like sugar and butter. They also rationed gasoline. The people were also asked to donate metal items for recycling and to buy Savings Bonds to fund the war efforts.
Sodium is a metal element. There are 11 electrons in a single atom.
The electron outside the shell donate its electron to the one inside the shell
Metal --> electrons + Metal ions (positively charged)
Cs (cesium) is most likely to donate one electron as it is classified as an alkali metal with a single valence electron in its outermost energy level.
EDTA (ethylenediaminetetraacetic acid) is a hexadentate ligand that can donate six pairs of electrons to form coordinate bonds with metal ions. It acts as a chelating agent due to its ability to form multiple bonds with a metal ion. The basicity of EDTA is high because it can donate multiple protons to form stable complexes with metal ions.
Sodium often tends to donate its valence electron to a non metal atom to form an ionic compound.
carbonyl in electron acceptor ligand it has empty orbital which can accept electron as well as filled orbital which can donate electrons . when carbonyl binds with metal it donates the electrons ,metal which is in low oxidation state now has excess electrons and it becomes stable if it back donate some electrons to the carbonyl in its anti bonding orbital forming a pi bond