28gm lithium is fixed with 48gm `O_(2)` to react according to the following reaction
`Li + O_(2) rArr Li_(2)O`
The mass of `Li_(2)O` formed is:

28 gm lithium is mixed with 48 gm O_(2) to reacts according to the following reaction. 4Li + O_(2) to 2Li_(2)O The mass of Li_(2)O formed is

28 gm lithium is mixed with 48 gm O_(2) to reacts according to the following reaction. 4Li + O_(2) to 2Li_(2)O The mass of Li_(2)O formed is

Li_(2)O_(2) is formed when

Lithium oxide is used to remove water from air according to the following reaction: Li_(2)O(s) + H_(2)O(g) to 2LiOH(s) 90 kg of water is to be removed and 45 kg of Li_(2)O is available. Which reactant is the limiting reactant?

Lithium oxide is used to remove water from air according to the following reaction: Li_(2)O(s) + H_(2)O(g) to 2LiOH(s) 90 kg of water is to be removed and 45 kg of Li_(2)O is available. Define limiting reactant.

Lithium oxide is used to remove water from air according to the following reaction: Li_(2)O(s) + H_(2)O(g) to 2LiOH(s) 90 kg of water is to be removed and 45 kg of Li_(2)O is available. Calculate the maximum amount of water that will be removed.

Lithium oxide is used to remove water from air according to the following reaction: Li_(2)O(s) + H_(2)O(g) to 2LiOH(s) 90 kg of water is to be removed and 45 kg of Li_(2)O is available. How much excess reactant (in kg) left?

Lithium oxide is used to remove water from air according to the following reaction: Li_(2)O(s) + H_(2)O(g) to 2LiOH(s) 90 kg of water is to be removed and 45 kg of Li_(2)O is available. How many moles of Li20 are needed to completely remove 50 kg of water?

Complete the following reactions (i) O_(2)^(2-)+H_(2)O rarr (ii) O_(2)^(-) +H_(2)O rarr

Complete the following reactions (i) O_(2)^(2-)+H_(2)O rarr (ii) O_(2)^(-) +H_(2)O rarr