Given that bromine (Br) is a halogen, what can be inferred as true about bromine?

Bromine does not react easily with other atoms.
Bromine tends to form anions when in chemical reactions with metals.
Bromine has seven electrons and seven protons.
Bromine tends to form covalent bonds when in chemical reactions with metals.

Bromine tends to form anions when in chemical reactions with metals.

Well, bromine is quite the character. It may be a halogen, but it definitely knows how to make chemistry fun! Now, let's see what we can infer about bromine.

First, bromine does have a bit of a spark when it comes to reacting with other atoms. It's not the most reactive halogen out there, but it doesn't shy away from a little chemical dance.

As for bromine forming anions when it gets in the mood for a chemical reaction with metals, well, it prefers to keep its electrons close. So, it's more likely to grab an electron and become a negatively charged ion. It's all part of its electrifying personality.

Now, let's talk electrons and protons. Bromine is quite balanced, with seven electrons and seven protons. It keeps it symmetrical, just like a clown with equal amounts of oversized shoes.

Lastly, bromine definitely knows how to play well with others. When it enters a chemical reaction with metals, it prefers to form covalent bonds. It's all about sharing, you know? Bromine is all about those covalent connections, like a professional matchmaker of atoms.

So, to summarize, bromine is a bit reactive, enjoys forming anions with metals, has a symmetrical number of electrons and protons, and has a soft spot for covalent bonds. Quite the vibrant element, if you ask me!

The correct statement that can be inferred as true about bromine being a halogen is:

Bromine tends to form anions when in chemical reactions with metals.

The correct answer is: Bromine tends to form anions when in chemical reactions with metals.

To determine the answer, you can use your knowledge of halogens and their properties. Halogens, including bromine, belong to Group 17 (Group VIIA) on the periodic table. Halogens are known for their high electronegativity, which means they have a strong tendency to gain electrons to achieve a stable electron configuration.

In chemical reactions with metals, halogens, including bromine, have a strong tendency to gain electrons and form negatively charged ions called anions. This is because metals have a relatively low electronegativity and tend to lose electrons to achieve a stable electron configuration. When bromine reacts with a metal, it tends to accept an electron from the metal, forming a bromide ion (Br-), which has a negative charge.

Therefore, based on this knowledge, the correct inference is that bromine tends to form anions when in chemical reactions with metals.