The difference between elements stems from their atomic structure. The difference between one element and another stems from the number of protons and electrons in each atom. Each element has its own unique number of protons and electrons per atom eg Hydrogen atoms have 1 proton and 1 electron, Helium 2, Lithium 3 and so on. The number of electrons has a major influence on how the atom behaves when in contact with elements of a different element. This affects its ability to form chemical compounds, its ability to form ions, its ability to burn (oxidise), and so on. The number of protons in the atoms' nuclei (and the number of neutrons asociated with them) affects the mass of the electron and its ability to move or vibrate. Roughly speaking , the larger the nucleus (ie the number of protons and neutrons) then the more likely the element is to be a liquid or even a solid at any given temperature. And in the case of solids some atoms or molecules are able to form lattice structures better then others which affects the strength of the material. Some atomic structures are unstable and give off atomic radiation as they change to a more stable structure. These elements are radioactive.
Elements are different from each other because they have unique numbers of protons, neutrons, and electrons, giving them distinct atomic structures. These differences in atomic structure lead to variations in properties such as reactivity, melting point, and appearance among elements. The Periodic Table categorizes elements based on these differences and helps illustrate their unique characteristics.
No two different elements will have the exact same atomic number. Each element has a unique number of protons in its nucleus, which determines its atomic number and distinguishes it from other elements.
Elements can combine in different ways to form compounds with unique properties. This versatility arises from the ability of elements to bond in various arrangements, resulting in diverse molecular structures. Through these combinations, elements contribute their specific characteristics to generate a wide array of matter with distinct traits and functionalities.
Magnesium is different from other elements because of its physical and chemical properties. It is a lightweight metal with a high strength-to-weight ratio, making it valuable for applications in industries such as aerospace and automotive. Magnesium also has a high reactivity with oxygen, which causes it to form a protective oxide layer that makes it resistant to corrosion.
No, cyclohexane and n-hexane are not isomers of each other. They belong to different chemical classes. Cyclohexane is a cyclic compound with a six-membered ring, while n-hexane is an aliphatic straight-chain hydrocarbon with six carbon atoms in a row.
They are usually completely different (metal alloys are the exception). The best example would be sodium and chlorine; a metal that basically explodes on contact with water and a gas which causes people to drown in their own mucus together form a harmless salt that is necessary to human life. They're not related at all. For example- Look at the salt (NaCl). Na (Sodium) atoms are from a soft metal. Cl (Chlorine) atoms are from a yellow-green gas. By combination, they make salt which is neutral. They are different. This is the only thing we can say, since the properties vary from compound to compound and elements to elements.
because not all elements and compounds react with each other
because not all elements and compounds react with each other
Variety
they combine with themselves atoms of different elements connot combine with each other wothout making a new molecule
If there are 109 different elements, there must be 109 different atomic numbers since each element has a unique atomic number that distinguishes it from other elements on the periodic table.
No two different elements will have the exact same atomic number. Each element has a unique number of protons in its nucleus, which determines its atomic number and distinguishes it from other elements.
Elements can combine in different ways to form compounds with unique properties. This versatility arises from the ability of elements to bond in various arrangements, resulting in diverse molecular structures. Through these combinations, elements contribute their specific characteristics to generate a wide array of matter with distinct traits and functionalities.
Different news outlets could make use of different media elements
Magnesium is different from other elements because of its physical and chemical properties. It is a lightweight metal with a high strength-to-weight ratio, making it valuable for applications in industries such as aerospace and automotive. Magnesium also has a high reactivity with oxygen, which causes it to form a protective oxide layer that makes it resistant to corrosion.
curiosity
It is very normal that different compounds or elements have different properties. Each is a specific entity.
what happens to the properties of elements when they react with each other element