M₂(g) + N₂(g) = 2 MN(g) Scene A represents the mixture at equilibrium, with M black and N orange. If each molecule represents 0.40 mol and the volume is 1.0 L, how many moles of each substance will be present in scene B when that mixture reaches equilibrium? A M M₂ MN2 M MN B

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M₂(g) + N₂(g) = 2 MN(g)
Scene A represents the mixture at equilibrium, with M black and N orange. If each molecule
represents 0.40 mol and the volume is 1.0 L, how many moles of each substance will be present in
scene B when that mixture reaches equilibrium?
A
M M₂
MN₂
M MN
B
Transcribed Image Text:M₂(g) + N₂(g) = 2 MN(g) Scene A represents the mixture at equilibrium, with M black and N orange. If each molecule represents 0.40 mol and the volume is 1.0 L, how many moles of each substance will be present in scene B when that mixture reaches equilibrium? A M M₂ MN₂ M MN B
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