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∙ 7y agoThe elements in the group known as the halogens (Group 17) are always linked with others to form compounds due to their high reactivity and tendency to gain an electron to achieve a stable configuration. This group includes elements like chlorine, fluorine, and iodine.
Yes, arsenic can combine with other elements to form various compounds. It can form compounds with elements like hydrogen, oxygen, sulfur, and metals, amongst others. These compounds can have different properties and uses, and are important in various industrial and biological processes.
False. While some elements readily form compounds with other elements, not all elements easily form compounds. Elements differ in their reactivity, with some being highly reactive and forming compounds easily, while others are more stable and less likely to form compounds.
Oxygen is the element among these options. Carbon dioxide, water, and ammonia are compounds made up of various elements, including oxygen, carbon, and hydrogen.
Protons that are contained within any and all Atomic [Elemental] Nucleus / Nucleii.
No, molecules can exist both in compounds and as individual elements. In compounds, molecules are formed when atoms chemically bond together. In the case of elements, some exist as diatomic molecules (like oxygen, O2), while others exist as single atoms (like helium, He).
No, matter include and others entities than elements and compounds.
Matter include and others entities than elements and compounds.
Yes, uranium can combine with other elements to form compounds. It can form compounds with elements such as oxygen, carbon, and fluorine, among others. These compounds are important in various industrial applications, such as in nuclear energy production.
Yes, arsenic can combine with other elements to form various compounds. It can form compounds with elements like hydrogen, oxygen, sulfur, and metals, amongst others. These compounds can have different properties and uses, and are important in various industrial and biological processes.
because of the valence toms
because of the valence toms
Yes, tantalum can combine with other elements to form compounds. It is a reactive metal that can react with elements like oxygen, nitrogen, carbon, and others to form various compounds, depending on the conditions and the nature of the other elements involved.
because of the valence toms
because of the valence toms
False. While some elements readily form compounds with other elements, not all elements easily form compounds. Elements differ in their reactivity, with some being highly reactive and forming compounds easily, while others are more stable and less likely to form compounds.
Oxygen is the element among these options. Carbon dioxide, water, and ammonia are compounds made up of various elements, including oxygen, carbon, and hydrogen.
Silicon is the element. Others are compounds of different elements.