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Question

Verify Rolle's theorem for each of the following functions on the indicated intervals
(i) f(x) = x2 − 8x + 12 on [2, 6]

(ii) f(x) = x2 − 4x + 3 on [1, 3]

(iii) f(x) = (x − 1) (x − 2)2 on [1, 2]

(iv) f(x) = x(x − 1)2 on [0, 1]

(v) f(x) = (x2 − 1) (x − 2) on [−1, 2]

(vi) f(x) = x(x − 4)2 on the interval [0, 4]

(vii)
f(x) = x(x −2)2 on the interval [0, 2]

(viii)
f(x) = x2 + 5x + 6 on the interval [−3, −2]

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Solution

(i) Given:
fx=x2-8x+12

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on 2, 6.

Also,
f2=22-82+12=4-16+12=0f6=62-86+12=36-48+12=0 f2=f6=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c2, 6 such that f'c=0.

We have
fx=x2-8x+12f'x=2x-8 f'x=0 2x-8=0x=4

Thus, c=42, 6 such that f'c=0.

Hence, Rolle's theorem is verified.

(ii) Given:
fx=x2-4x+ 3

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on 1, 3.

Also,
f1=12-41+3=1-4 + 3=0f3=32-43+3=9-12+3=0 f1=f3=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c1, 3 such that f'c=0.

We have
fx=x2-4x+3f'x=2x-4 f'x=0 2x-4=0x=2

Thus, c=21, 3 such that f'c=0.

Hence, Rolle's theorem is verified.

(iii) Given:
fx=x-1x-22
i.e. fx=x3+4x-4x2-x2-4+4x
i.e. fx=x3-5x2+8x-4

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on 1, 2.

Also,
f1=13-512+81-4=0f2=23-522+82-4=0 f1=f2=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c1, 2 such that f'c=0.

We have
fx=x3+8x-5x2-4f'x=3x2+8-10x f'x=0 3x2-10x+8=0 3x2-6x-4x+8=0 3xx-2-4x-2=0 x-23x-4 x=2, 43

Thus, c=431, 2 such that f'c=0.

Hence, Rolle's theorem is verified.

(iv) Given:
fx=xx-12
fx=xx2-2x+1
fx=x3-2x2+x

We know that a polynomial function is everywhere derivable and hence continuous.

So, fx being a polynomial function is continuous and derivable on 0, 1.

Also,
f0=f1=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c0, 1 such that f'c=0.

We have
fx=x3-2x2+xf'x=3x2-4x+1 f'x=0 3x2-4x+1=0 3x2-3x-x+1=0 3xx-1-1x-1=0 x-1 3x-1=0 x=1, 13

Thus, c=130, 1 such that f'c=0.

Hence, Rolle's theorem is verified.

(v) Given:
fx=x2-1x-2
i.e. fx=x3-2x2-x+2

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on -1, 2.

Also,
f-1=f2=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c-1, 2 such that f'c=0.

We have
fx=x3-x-2x2+2f'x=3x2-4x-1 f'x=0 3x2-4x-1=0 x=--4±-42-4×3×-12×3 x=4±16+126 x=4±286 x=4±276 x=2±73 x=132-7, 132+7

Thus, c=132-7, 132+7-1, 2 such that f'c=0.

Hence, Rolle's theorem is verified.

(vi) Given function is
fx=xx-42, which can be rewritten as fx=x3-8x2+16x.

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on 0, 4.

Also,
f0=f4=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c0, 4 such that f'c=0.

We have
fx=x3-8x2+16xf'x=3x2-16x+16f'x=0 3x2-16x+16=03x2-12x-4x+16=03xx-4-4x-4=0x-43x-4x=4, 43

Thus, c=430, 4 such that f'c=0.

Hence, Rolle's theorem is verified.

(vii) The given function is
fx=xx-22, which can be rewritten as fx=x3-4x2+4x.

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on 0, 2.

Also,
f0=f2=0

Thus, all the conditions of Rolle's theorem are satisfied.

Now, we have to show that there exists c0, 2 such that f'c=0.

We have
fx=x3-4x2+4xf'x=3x2-8x+4When f'x=0 3x2-8x+4=03x2-6x-2x+4=03xx-2-2x-2=0x-23x-2x=2, 23

Thus, c=230, 2 such that f'c=0.

Hence, Rolle's theorem is verified.

(viii) Given function is
fx=x2+5x+6.

We know that a polynomial function is everywhere derivable and hence continuous.

So, being a polynomial function, fx is continuous and derivable on -3, -2.
Also,
f-3=-32+5-3+6=9-15+6=0f-2=-22+5-2+6=4-10+6=0 f-3=f-2=0

Thus, all the conditions of the Rolle's theorem are satisfied.

Now, we have to show that there exists c-3, -2 such that f'c=0.

We have
fx=x2+5x+6f'x=2x+5 f'x=0 2x+5=0 x=-52

Thus, c=-52-3, -2 such that f'c=0.

Hence, Rolle's theorem is verified.

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