The ratio of atoms in different compounds is apparent from the chemical formula. Examples:
H2O (water) has 2 Hydrogen for every Oxygen
H2SO4 (sulfuric acid) has 2 Hydrogen for every 1 Sulfur and 4 Oxygen atoms
Ways atoms can combine to form compounds are:
covalent bond and ionic bond
No, they form into whole number ratios i think c:
Generally, nonmetals combine to form molecular compounds.
Simple whole-numbered ratios
simple whole number ratios
In simple whole number ratios
HAha
They can combine in lots of ways. Some reactive elements will combine on their own but others need heating to combine. Noble gases (krypton, argon, xenon, helium, neon and radon) do not react (combine) with other atoms.
You can predict how atoms will combine to form a molecule because molecules always arrange their atoms in the same proportions because atoms bond together in predictable ways. :)
Although there are only 90 elements, they combine in many different ways to form all of the substances around you.
The ways that a chemical bond to form is for the atoms to either lose or gain their valence electrons.
1. -are 2 words2. -you use at least 1 every day , unless you dont talk3. - compound words are made up of 2 WORDS THAT ARE MORE THAN 3 LETTERS longexamples are------------ some-times and Web-kinz.com, a websitethere are only 100 or so elements but they can combine in different ways to form many millions of compounds
They can combine in lots of ways. Some reactive elements will combine on their own but others need heating to combine. Noble gases (krypton, argon, xenon, helium, neon and radon) do not react (combine) with other atoms.
You can predict how atoms will combine to form a molecule because molecules always arrange their atoms in the same proportions because atoms bond together in predictable ways. :)
Because the elements can combine in many ways to form compounds, and compounds can be mixed in many differed ways. Moreover, some elements occur in different forms. The elements carbon and hydrogen alone combine for form thousands of compounds.
The question itself contains the answer: they can combine in many different ways. Carbon is particularly good at this.
hi i need help to my stupid assignment about the different ways of combining atoms to form into a compound please need help.
Dalton discovered that the atoms that combine to form compounds are distinguished from one another by their atomic weights. He also learned that all atoms of a given element are identical.
You can form compounds with ionic bonds, or covalent bonds. Example 1: Salts are bonded together with ionic bonds, such as NaCl or CuCl2. When compounds have ionic bonds it is the electrostatic force between the atoms that bonds them together. Example 2: Inorganic/organic molecules are mostly bonded together with covalent bonding. this means that the atoms share pairs of electrons with each other, and there is a equilibrium between the attractive and repulsive forces between the atoms. CO2, EtOH, H2O all have covalent bonds "holding" the molecule together
Why do certain atoms combine to form a compound
atoms can be split from a molecule in two ways: through a chemical reaction in which the atoms split off a molecule and re-form to make a new one, or by an induced fission reaction.
Although there are only 90 elements, they combine in many different ways to form all of the substances around you.
Although there are only 90 elements, they combine in many different ways to form all of the substances around you.
Atoms can interact in different manners. Compounds can have the same ratios of atoms combined in different ways producing different properties (cis and trans forms of compounds come to mind). Additionally, many compounds consist of the same elements but in different ratios. Compare Carbon dioxide, a inert waste product of respiration, to carbon monoxide, a gas deadly to humans. Both use carbon and oxygen, but CO2 has an extra oxygen molecule, greatly changing its properties. So in short, no. Atoms can combine in multiple ratios, and even compounds of equal ratios can come together in different manners to produce different compounds.