I suppose that you think to the solid state of matter.
atoms
Sand is a mixture, not a compound, as it is made up of different elements such as silicon, oxygen, and occasionally other minerals. These elements are not chemically bonded together in a specific ratio to form a new substance.
Yes, carbon can form very large molecular structures by linking to itself and other elements through strong covalent bonds. This ability to form diverse bonds allows carbon to create complex and varied compounds, such as proteins, DNA, and polymers.
Fluorine forms a very large range of compounds since it is highly reactive (actually it is the most reactive element there is). Teflon and freon are both synthetic fluorine compounds. Fluorine salts such as potassium fluoride are used in toothpaste, or to fluoridate water.
Oh honey, we're talking about oxides here. When elements get cozy with oxygen and start burning, they form these compounds called oxides. It's like a fiery love affair between elements and oxygen, leaving behind these sassy oxides as their legacy.
The large variety of matter comes from the different ways that elements can combine and bond together. Through chemical reactions, elements can form molecules and compounds with unique properties and structures. This allows for countless combinations and arrangements of elements to create the vast array of substances we see in the world.
Carbohydrates are large molecules. They are made up of a large number of glucose molecules bond together. So they are not elements, they are compounds.
There are a bit more than 100 elements however there are far, far more than 100 millions compounds, each day more compounds are produced, there are a lot of compounds with unknown structure, not having official names. So the ratio is much bigger than 1 to a million
Chlorine is reactive and can form compounds with many other elements. It commonly reacts with metals to form metal chlorides, and with nonmetals to form covalent compounds. Its reactivity makes it an important component in a variety of chemical processes and products.
A large compound formed by the joining of smaller compounds is called a polymer.
No, large animals cannot be decomposers. Decomposers are organisms like fungi and bacteria that break down dead organic matter into simpler compounds. Large animals, such as scavengers, may feed on decaying organic matter but they do not decompose it.
Muscles primarily consist of proteins which are large organic compounds composed of amino acids. Additionally, muscles also contain other organic compounds such as fats and carbohydrates which serve as energy sources.
Organic compounds have carbon atoms bonded to hydrogen atoms, and may also contain other elements like oxygen, nitrogen, sulfur, or phosphorus. They are found in living organisms and are the basis of many biological processes. Organic compounds can range from simple molecules like methane to complex structures like proteins and DNA.
Carbohydrates are composed of carbon, hydrogen, and oxygen elements. The main elements found in carbohydrates are carbon and hydrogen, with oxygen also present in the form of hydroxyl (-OH) groups. These elements combine in different configurations to form various types of carbohydrates, such as sugars, starches, and fibers.
Group 1 or group 2 elements with group 16 or group 17 elements. In general, if the electronegativity difference between the two atoms is more than 1.7 in Pauling's scale, then the two atoms form ionic bond.
The large difference in electronegativity between the elements in the compound is the best indicator that a compound may be ionic. Ionic compounds typically form between elements with a large electronegativity difference, resulting in the transfer of electrons from one element to another.
Polymers are large compounds that have been produced by joining together of smaller compounds.