Let f:R→(0,∞) and g:R→R be twice differentiable functions such that f′′ and g′′ are continuous functions on R. Suppose f′(2)=g(2)=0,f′′(2)≠0 and g′(2)≠0. If limx→2f(x)g(x)f′(x)g′(x)=1, then
A
f has a local minimum at x=2
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B
f has a local maximum at x=2
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C
f′′(2)>f(2)
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D
f(x)−f′′(x)=0 for at least one x∈R
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Solution
The correct option is Df(x)−f′′(x)=0 for at least one x∈R f′(2)=g(2)=0,f′′(2)≠0 and g′(2)≠0 limx→2f(x)g(x)f′(x)g′(x)=1
Applying L'Hospital Rule, we get limx→2f′(x)g(x)+f(x)g′(x)f′′(x)g′(x)+f′(x)g′′(x)=1⇒f(2)f′′(2)=1⇒f′′(2)=f(2) ∵f′(2)=0 and the co domain of f is (0,∞) ∴f′′(2)>0
Hence, f(2) will be local minima.