different shape of elements from the molecules and compounds
Different forms of the same element due to different arrangement of atoms are called allotropes. For example, carbon can exist in different allotropes such as diamond, graphite, and fullerenes, each with unique physical and chemical properties. These allotropes have the same number of protons (defining the element) but vary in their structure and bonding.
they are found in all shapes you can think of
allotrope
No, it becomes a different isotope. An element is defined solely by the number of protons.
Steal an electron from an atom of a different element.
No, oxygen and hydrogen are two different elements made of different types of atoms. Oxygen is composed of oxygen atoms, while hydrogen is composed of hydrogen atoms. Each element has its own unique set of properties based on the structure and behavior of its atoms.
No, the atoms in a molecule do not need to be all different. Molecules can contain multiple atoms of the same element or different elements bonded together. The arrangement and types of atoms in a molecule determine its properties.
Usually, an atom has the same number of protons as electrons, but when the number of electrons is changed, the atom is considered ionic. An atom that has lost an electron is called an anion, and an atom that has gained an electron is called a cation. One example of a cation is a potassium ion, or K+, and one example of an anion is chloride,(a chlorine ion) or Cl-
because different element have different number of electrons.
Minerals have different atom arrangements due to the specific composition and structure of their chemical elements. Factors such as the size, charge, and bonding preferences of these elements influence how they arrange themselves into crystalline structures, leading to a wide variety of mineral configurations. Temperature, pressure, and the environment in which the mineral forms also play a role in determining its atomic arrangement.
An iron atom is a different element than a sodium atom because it has a different ground state electron configuration. In fact, any atom that differs from any other atom in ground state electron configuration is a different element.
No, Glucose is not an element. To be an element, a substance must have all the same type of atom. Once it has this, it can go on the Periodic Table. Glucose is formed of three different atoms: Carbon, Hydrogen and Oxygen. One molecule has twenty four atoms in in the arrangement: C6H12O6So, as Glucose has three different types of atom in it, it's not an element.
The number of protons is different.
atom and elements are different because one atom makes an element and a element is a pure substance and a atom is a basic particle
Yes. It is true. An atom with a different atomic number is an atom of a different element.
Yes, an atom retains the chemical identity of an element. The number of protons in the nucleus determines the element's identity, regardless of the number of neutrons or electrons.
The type of atom is now different from what it was. (It has a new identity.)
atom and elements are different because one atom makes an element and a element is a pure substance and a atom is a basic particle
no
An element is a pure substance made up of only one type of atom, such as oxygen or gold. A compound is a substance made up of two or more different elements chemically bonded together, such as water (H2O) or carbon dioxide (CO2).