Which of the following elements has chemical properties similar to chlorine?

Which of the following elements has chemical properties similar to chlorine?

halogens: Group 17 (or VII) in the periodic table consisting of fluorine (F), chlorine (Cl), bromine (Br), iodine (I), and astatine (At). They share similar chemical properties.

What element is most similar to chlorine?

Any element with 7 electrons in the outermost shell will have similar properties. Thus other elements in the same column of the periodic table as chlorine will have similar properties. Elements in this column form what is called the Halogen series, which is composed of fluorine, chlorine, bromine, iodine, and astatine.

Which element have the most similar chemical properties?

The answer is that Bromine is the most chemically similar to chlorine out of the options, because Bromine and Chlorine are halogens. Halogens are a group of elements: Flourine (F), Chlorine (Cl), Bromine (Br), Iodine (I) and Astatine (At). The elements of this family they all have similar chemical properties.

Which element would have physical and chemical properties similar to chlorine quizlet?

Fluorine and bromine have properties similar to those of chlorine.

Does sodium and chlorine have similar chemical properties?

In the 19th century, many previously unknown elements were discovered, and scientists noted that certain sets of elements had similar chemical properties. For example, chlorine, bromine, and iodine react with other elements (such as sodium) to make similar compounds.

Which is more electronegative than chlorine?

why is fluorine more electronegative than chlorine even though its electron gain enthalpy is less than that of chlorine – Chemistry – TopperLearning.com | rnkev088.

Why is Fluorine like chlorine?

What Makes Them Similar? When you look at our descriptions of the elements fluorine and chlorine, you will see that they both have seven electrons in their outer shell. That seven-electron trait applies to all of the halogens. Fluorine is the most reactive and combines with most elements from around the periodic table.

What are 3 elements that have similar properties?

As pictured below, notice how the elements lithium (Li), sodium (Na), and potassium (K) all look alike. They are all soft, silver metals. Since Li, Na, and K are all Group 1A metals, they all share similar chemical properties.

What elements have similar properties?

Elements in the same group of the periodic table have similar chemical properties. Elements can be classified as metals, metalloids, and nonmetals, or as a main-group elements, transition metals, and inner transition metals.

What elements have similar physical and chemical properties?

Explain your answer. Sodium and potassium share similar physical and chemical properties because they are in the same family or group called Alkali metals. Both will have the same valence electrons and they are both very reactive.

What elements have the same properties?

The vertical columns (groups) of the periodic table are arranged such that all its elements have the same number of valence electrons. All elements within a certain group thus share similar properties.

What elements have the same chemical properties?

Which element is most chemically similar to chlorine?

Bromine and chlorine are similar chemical elements. Both are halogens found in nature. The following discussion will help you to gain more information about these chemicals in detail.

What are all the elements in chlorine?

Fast Facts: The Element Chlorine Element Name: Chlorine Atomic Number: 17 Element Symbol: Cl Appearance: Pale greenish-yellow gas Element Group: Halogen

What is the element of classification for chlorine?

Chlorine is a chemical element with symbol Cl and atomic number 17. Classified as a halogen, Chlorine is a gas at room temperature. [35.446, 35.457] 35.4527 35.45

Is chlorine a diatomic molecule?

Chlorine (Cl2) is a diatomic molecule consisting of only two atoms. It is also a homonuclear molecule consisting of atoms of the same chemical element. Hundreds of diatomic molecules have been identified [4] in the environment of the Earth, in the laboratory, and in interstellar space.

Back To Top