Argon would effuse faster through a hole than Krypton because it has a lower molar mass. According to Graham's law of effusion, lighter gases effuse more rapidly than heavier gases. Since argon has a molar mass of about 40 g/mol, while krypton has a molar mass of about 84 g/mol, the lighter argon molecules will move through the hole at a higher rate.
The balloon with krypton gas has a higher density than the balloon with argon gas.
Krypton has the most protons among argon, nitrogen, chlorine, and krypton. It has 36 protons.
No, krypton (Kr) is not larger than argon (Ar); in fact, krypton has a larger atomic radius than argon. Krypton is located below argon in the periodic table, which generally results in an increase in atomic size due to the addition of electron shells. Therefore, krypton's atomic radius is greater than that of argon.
No, that's not true. Krypton (Kr) is larger than argon (Ar) in terms of atomic radius and atomic size. Krypton has more electron shells than argon, which contributes to its larger size. Therefore, krypton is indeed larger than argon.
krypton
The balloon with krypton gas has a higher density than the balloon with argon gas.
Molecular oxygen will effuse faster because: Molar Mass of O2: 32g Atomic Mass of Ar: 40g
The density of krypton and argon are 3.749 g/L and 1.784 g/L respectively at 0oC. So krypton is heavier than argon.
Krypton has the most protons among argon, nitrogen, chlorine, and krypton. It has 36 protons.
Neither. Both argon and krypton does not react with nitrogen.
krypton
No, argon does not form an ion isoelectronic with krypton. Argon has 18 electrons, while krypton has 36 electrons. To be isoelectronic, the two species should have the same number of electrons.
The element that has the same number of electrons as argon is Krypton (Kr). Both argon (Ar) and krypton (Kr) have 18 electrons in their neutral state.
Krypton, Argon
All have the outermost shell of electrons completely filled.
Argon (Ar) has a smaller atomic radius compared to krypton (Kr). This is primarily due to the increase in the number of electron shells in krypton, which has more protons and electrons than argon. As you move down the group in the periodic table, the atomic radius generally increases, leading to krypton's larger size. Thus, krypton has a larger atomic radius than argon.
it can be used with krypton for florecent lights