The chemical properties of atoms are significantly changed when they form compounds.
When elements combine to form compounds it is called a chemical reaction.
The compound is then a collection of molecules and each molecule has in it atoms from the elements used in the formation.
The atoms in the molecule are still the same atoms as one started with, but the arrangement of the electrons in the atoms has changed. It is the electronic properties of atoms and molecules that really determine the properties they have and which chemical reactions occur and which do not.
The chemical properties of an atom or molecule are determined by the arrangement of the electrons of that atom or molecule. Once atoms have gone through a chemical reaction, the electronic structure is changed. The atoms are the same identity, but the properties of the atoms have been changed by the chemical reaction.
The chemical properties of atoms are significantly changed when they form compounds. When elements combine to form compounds it is called a chemical reaction. The compound is then a collection of molecules and each molecule has are still the same atoms as one started with, but the arrangement of the electrons in the atoms has changed.
The short answer is yes. As the chemicals combine their outer shell electrons are either shared or transferred. The outshell electrons are the primary contributors to the properties (chemical and physical) of the atoms. Thus atoms with 1,2 or 3 electrons in their outer (valence) shell will tend to lose them while atoms with 5, 6 or 7 electrons in their valence shells will tend to fill to eight. Additionally, atoms with the same number of valence shell electrons not only belong to the same family of atoms but also have very similar chemical properties.
lol, of course. I cannot think of an exception to this. While many chemicals have strikingly similar physical or chemical properties (under specific conditions of pressure, temperature etc), each chemical compound is unique unto itself. and even homogeneous pure elements have isotopic variation...
Yes, for example both Hydrogen and Oxygen are highly flammable gases and yet when combined they for the liquid compound water, which is used to extinguish fires.
Please clarify, combine or BOND?
When elements bond, it's either Ionic, Covalent Network, Covalent Molecular or Metallic - depending on the elements involved.
The compound will have properties that are different from those of the individual elements, if that's what you mean.
Yes, it is correct.
radiation
it is called a halide.
An atom. Anything smaller is an atomic particle from which all elements are made.An atom is the smallest particle of an element that has properties of that element.An atom is the smallest unit of an element that retains the properties of that element.
Calcium shares properties with Magnesium and Strontium.
Comparing the properties of the new element with the properties of the other elements in the group we can make this prediction.
any element in group !
An element is said to be chemically reactive when it combines with another element. These two elements will create a new compound.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
Elements have different properties because elements can be further divided than atoms and can be mixed by another element
it depends on which elements you are combineing
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
Element properties stay the same
water,oxygen and aluminum.
what happens to the properties of elements when they react with each other element
You would see which group the element was in and then replace it with another element from the same group, as all elements in a group have similar properties. For example you could replace Sodium with Potassium as they are both in Group 1.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.