chlorine atoms have larger radii than fluorine
A. True
B. false
I am unsure
Answer Th
https://www.google.com/search?q=atomic+radii&tbm=isch&imgil=q0vuHCt1Fed6xM%253A%253BDzjBARv5dzij-M%253Bhttp%25253A%25252F%25252Fch301.cm.utexas.edu%25252Fsection2.php%25253Ftarget%2525253Datomic%25252Ftrends%25252Fatomic-radii.html&source=iu&pf=m&fir=q0vuHCt1Fed6xM%253A%252CDzjBARv5dzij-M%252C_&usg=__mOHYmqu0pioPbabUuJTsvQgcM9Y%3D&biw=1041&bih=517&ved=0ahUKEwjIipmZw4DLAhVhl4MKHVamBWgQyjcIJg&ei=KU_FVojSC-GujgTWzJbABg#imgrc=q0vuHCt1Fed6xM%3A
The correct answer is B. False.
To determine the size of an atom, we can look at its atomic radius. Atomic radius refers to the size of an atom from its nucleus to the outermost electron orbital. In general, atomic radius decreases across a period (horizontal row) from left to right in the periodic table and increases down a group (vertical column).
Fluorine (F) and chlorine (Cl) are both halogens and are located in the same group (group 17 or 7A) in the periodic table. As we move down this group, atomic radius generally increases. Therefore, chlorine atoms have larger radii than fluorine atoms.
Therefore, the statement that "chlorine atoms have larger radii than fluorine" is false.