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Why is fluorine smaller than oxygen?
Even though Fluorine comes after Oxygen, it is smaller due to the fact that it has more protons. Therefore, the electrons in Fluorine have a tighter orbit than the electrons in Oxygen. Electrons dictate atomic size.
Does oxygen have a greater mass than chlorine?
Atomic oxygen does not have a greater atomic mass than chlorine, nor does molecular oxygen. The atomic mass of chlorine is approximately 35 g/mol, while molecular (O2) oxygen has a molecular mass of 32 g/mol.
Would fluorine's chemical properties more closely resemble those of oxygen or those of chlorine?
Fluorine's chemical properties more closely resemble those of chlorine, as both are halogens. They can both readily gain an electron to form a negative ion and have similar reactivity and electronegativity. Oxygen, on the other hand, tends to form covalent bonds rather than ionic bonds like fluorine and chlorine.
Would fluorine chemical properties resemble those of oxygen or those of chlorine?
Fluorine chemical properties would more closely resemble those of chlorine. Both fluorine and chlorine are halogens and share similar chemical reactivity due to their shared group in the periodic table. Oxygen, on the other hand, belongs to a different group and has distinct chemical properties compared to halogens like fluorine and chlorine.
Is boron atomicly bigger or smaller than Oxygen?
Boron has a larger atomic radius but a smaller atomic mass.
How does fluorines atomic radius compare to oxygen radius and chlorines radius?
Fluorine has the smallest atomic radius among fluorine, oxygen, and chlorine. Oxygen has a larger atomic radius than fluorine but smaller than chlorine. Chlorine has the largest atomic radius among the three elements.
Why fluorine has a smaller atomic radius than both oxygen and chlorine?
Fluorine has a smaller atomic radius than oxygen and chlorine because it has more protons pulling the electrons closer to the nucleus, leading to a stronger attraction. This results in a smaller distance between the nucleus and the outermost electrons, hence a smaller atomic radius.
Why fluorine has smaller atomic radius than both oxygen and chlorine?
Fluorine has more electronegativity, meaning it is more "desperate" to obtain electrons. Its nucleus is the most attractive of all elements.
Is chlorine bigger than oxygen?
No, chlorine is smaller than oxygen. In the periodic table, chlorine (Cl) has fewer electrons and a smaller atomic radius compared to oxygen (O).
Why is fluorine smaller than oxygen?
Even though Fluorine comes after Oxygen, it is smaller due to the fact that it has more protons. Therefore, the electrons in Fluorine have a tighter orbit than the electrons in Oxygen. Electrons dictate atomic size.
Fluorine electronegativity compare to the electronegativity of oxygen and chlorine?
Fluorine has the highest electronegativity out of oxygen and chlorine, with a value of 4. Oxygen has an electronegativity of 3.44 and chlorine has an electronegativity of 3.16. This means that fluorine has a stronger tendency to attract electrons compared to oxygen and chlorine.
What are the chemical symbols for three different atomic anions that all have 9 protons?
Only fluorine has 9 protons in the atomic nucleus.
How does fluorine's electronegativity compare to the electronegativigty of oxygen and chlorine?
Fluorine has the highest electronegativity among the three elements. Oxygen is the second most electronegative, while chlorine has a slightly lower electronegativity compared to both fluorine and oxygen.
Why does oxygen have less electronegativity than fluorine?
Fluorine has stronger nuclear charge and smaller atomic size compared to oxygen, which results in greater attraction for electrons in its outer shell, making it more electronegative than oxygen.
What is an example of a non-metal?
Fluorine; oxygen; chlorine.
What are the other gases found in the periodic table?
Mono-atomic gases: Helium, neon, argon, krypton, xenon, and radon. Di-atomic gases: Hydrogen, Nitrogen, Oxygen, Fluorine, Chlorine.
What elements make chlorofluorocarbon?
chlorine, Fluorine, carbon, oxygen
