No
Sulfur has a conchoidal fracture, resembling the curved shape of a seashell when broken. It does not have a distinct cleavage because its atomic structure does not easily allow the mineral to break along specific planes.
A mixture of iron filings and sulfur can be easily separated by using a magnet. The iron filings will be attracted to the magnet, leaving the sulfur behind.
You actually can't break down pure sulfur, because it is an element.
Sulfur has a distinct bright yellow color, which easily distinguishes it from other solid substances that may be colorless or have different colors.
Carbon disulfide is commonly used as a solvent for sulfur. It has a high solvency power for sulfur and is able to dissolve it easily.
Sulfur is a brittle material that can break easily. It is also prone to oxidation, which can cause it to deteriorate over time. Additionally, sulfur can be flammable in certain conditions, making it a fire hazard.
Sulfur has a conchoidal fracture, resembling the curved shape of a seashell when broken. It does not have a distinct cleavage because its atomic structure does not easily allow the mineral to break along specific planes.
Sulfur is malleable.
A mixture of iron filings and sulfur can be easily separated by using a magnet. The iron filings will be attracted to the magnet, leaving the sulfur behind.
Sulfur is not malleable. It is a brittle non-metal that breaks easily under pressure rather than deforming.
No, sulfur would break and turn into powder.
No, the Macbook Air does not break easily.
You actually can't break down pure sulfur, because it is an element.
Iron and sulfur can be separated by using a magnet. Iron is magnetic, so it will be attracted to the magnet and can be easily separated from the sulfur.
Yes, sulfur can break the octet rule by expanding its valence shell to accommodate more than eight electrons. This is known as an expanded octet.
Yes, sulfur can break the octet rule by expanding its valence shell to accommodate more than eight electrons. This is known as an expanded octet.
Sulfur dioxide has a low melting point because it is a molecular compound made of Sulfur and Oxygen atoms held together by weak Van der Waals forces. These weak forces allow the molecules to easily break apart and slide past each other, resulting in a low melting point.