Tiny samples of aqueous solutions are sketched below, as if under a microscope so powerful that individual molecules could be seen. (The water molecules a not shown.) The two substances in each sample can interconvert. That is, each kind of molecule can turn into the other. The equilibrium constant K for each interconversi equilibrium is shown below the sketch. Decide whether each solution is at equilibrium. K=1 000 K= 2. At equilibrium? At equilibrium? O yes O no O yes O no K= K-3 At equilibrium? At equilibrium? O yes O no O yes O no 2/3

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Tiny samples of aqueous solutions are sketched below, as if under a microscope so powerful that individual molecules could be seen. (The water molecules are
not shown.)
The two substances in each sample can interconvert. That is, each kind of molecule can turn into the other. The equilibrium constant K for each interconversion
equilibrium is shown below the sketch.
Decide whether each solution is at equilibrium.
000
K=1
000 2
K=
At equilibrium?
At equilibrium?
O yes
O no
O yes
O no
K=
K=3
At equilibrium?
At equilibrium?
O yes
O no
O yes
O no
Explanation
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Transcribed Image Text:Tiny samples of aqueous solutions are sketched below, as if under a microscope so powerful that individual molecules could be seen. (The water molecules are not shown.) The two substances in each sample can interconvert. That is, each kind of molecule can turn into the other. The equilibrium constant K for each interconversion equilibrium is shown below the sketch. Decide whether each solution is at equilibrium. 000 K=1 000 2 K= At equilibrium? At equilibrium? O yes O no O yes O no K= K=3 At equilibrium? At equilibrium? O yes O no O yes O no Explanation Check IcGraw Hil Education Al Rights Reserved Terms of Use G Search or type URL & %23 3 4 6 7 8 9 Q E T Y P A S F H K C V M 其 command command
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