Final answer:
Tennessine, as a halogen in group 17, would have properties more similar to other halogens like chlorine, rather than sulfur or hydrogen. It is expected to form compounds analogous to those formed by other halogens, and not akin to sulfur-based thiols or hydrogen compounds.
Step-by-step explanation:
Based on periodic table trends and the position of tennessine (Ts) in the periodic table, we can deduce that it would not have properties similar to sulfur (S), chlorine (Cl), or hydrogen (H). Tennessine is a member of group 17, also known as the halogens, which includes fluorine (F), chlorine (Cl), bromine (Br), iodine (I), and astatine (At). This group is characterized by elements that typically gain one electron to form anions with a -1 charge. Therefore, tennessine would be expected to exhibit properties more similar to other halogens than to sulfur, which is in group 16, or hydrogen, which is unique given its position on the periodic table.
Sulfur and oxygen share similar properties because they belong to the same group (group 6A). For example, thiols are sulfur analogs of alcohols, with methanethiol having the formula CH3SH. On the other hand, as a halogen, tennessine would likely form compounds that are analogous to those formed by chlorine, such as halide salts.