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.
The properties of a compound are different from those of the elements that form it. When elements combine to form a compound, their individual properties are lost, and new properties emerge in the compound due to the arrangement and bonding of the elements. For example, sodium (explosive) and chlorine (toxic gas) combine to form sodium chloride, which is a stable compound essential for human health.
they are vastly different and often unpredictable, i.e. table salt (sodium chloride):
sodium (Na) - highly reactive with water (it explodes), and melts at about 97 degrees celsius
chlorine (Cl) - a toxic, yellow gas that is denser than air, it boils at about -34 degrees celsius
sodium chloride (NaCl) - harmless compound, edible, and good on fries. melts at 801 degrees celsius
No, when elements combine to form a compound, their original properties are lost, and new properties are created. The properties of a compound are determined by the arrangement and bonding of the elements within it.
No, the properties of a compound are different from the elements that form it. When elements combine to form a compound, their individual properties are lost, and new properties are created in the compound due to the interactions between the atoms.
Elements combine to form compounds through chemical reactions. These compounds have different properties than their individual elements, resulting in a wide range of substances found in nature and synthesized in laboratories.
A compound is made up of two or more different elements that are chemically bonded together in a fixed ratio. These elements combine to form a unique substance with specific properties that differ from the individual elements.
Sodium chloride is a compound formed by the chemical bonding of sodium and chlorine. The properties of sodium chloride are different from those of its constituent elements. For example, sodium is a highly reactive metal, whereas chlorine is a toxic gas. Together, they form a stable ionic compound with distinct properties, such as being a crystalline solid at room temperature and having a salty taste.
the properties of a compound are not the same as the elements that form them.
The properties of a compound are different from those of the elements that make it up. Compounds have unique physical and chemical properties that arise from the way the elements are bonded together, whereas the properties of individual elements are based on their atomic structure. Mixing elements together to form a compound can result in properties that are entirely different from those of the individual elements.
The properties of a compound are different from the properties of its individual elements. When elements combine to form compounds, the resulting compound can exhibit entirely new characteristics that are distinct from those of the individual elements.
Elements of a compound combine to form new substances with unique chemical and physical properties.
No, when elements combine to form a compound, their original properties are lost, and new properties are created. The properties of a compound are determined by the arrangement and bonding of the elements within it.
When elements combine to form compounds, the properties of the compound are different from the properties of the individual elements. This is because the atoms in a compound interact with each other in a unique way, leading to the emergence of new properties. The properties of a compound depend on the type of elements present, their arrangement, and the chemical bonds between them.
When two elements combine to form a compound, they lose their original properties and adopt new properties as a compound. The resulting compound can have different physical and chemical properties compared to the individual elements.
The properties of a compound are different from those of its individual elements because when elements combine to form a compound, they undergo a chemical reaction leading to the formation of new substances with unique properties. The properties of a compound are determined by the arrangement and types of atoms within the compound, which can result in different physical and chemical characteristics compared to its constituent elements.
No, the properties of a compound are different from the elements that form it. When elements combine to form a compound, their individual properties are lost, and new properties are created in the compound due to the interactions between the atoms.
compound.
They will either bind on a mollecular scale to form "solutions", or on a non-mollecular scale to form "mechanical mixtures". Certain properties will cause the mixture to combust, give off gasses, or other things, depending on the elements and the ratios.
When elements combine to form compounds, the chemical properties change because new chemical bonds are formed between the elements. This can result in new properties for the compound compared to the individual elements. The physical properties may also change, such as its melting point, boiling point, and appearance, due to the arrangement of the atoms and molecules in the compound.