(a) To determine To show: The curves n ( t ) = − g ′ ( t ) i + f ′ ( t ) j and − n ( t ) = g ′ ( t ) i − f ′ ( t ) j are both normal to the curve r ( t ) = f ( t ) i + g ( t ) j at the point ( f ( t ) , g ( t ) ) . Explanation The given space curve is r ( t ) = f ( t ) i + g ( t ) j . Obtain the velocity v as shown below. v = d r d t = d d t ( f ( t ) i + g ( t ) j ) = f ′ ( t ) i + g ′ ( t ) j At the point ( f ( t ) , g ( t ) ) , the velocity v is tangent to the given curve. Now compute the dot product n ⋅ v as shown below. n ⋅ v = ( − g ′ ( t ) i + f ′ ( t ) j ) ⋅ ( f ′ ( t ) i + g ′ ( t ) j ) = − g ′ ( t ) f ′ ( t ) + f ′ ( t ) g ′ ( t ) = 0 Compute the dot product − n ⋅ v as follows (b) To determine The principal unit normal N for the curve r ( t ) = t i + e 2 t j . (c) To determine The principal unit normal N for the curve r ( t ) = 4 − t 2 i + t j .

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ISBN: 9781323835029

Author: WEIR

Publisher: PEARSON C

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Chapter 13.4, Problem 7E

(a)

To determine

To show: The curves n(t)=−g′(t)i+f′(t)j and −n(t)=g′(t)i−f′(t)j are both normal to the curve r(t)=f(t)i+g(t)j at the point (f(t),g(t)).

(b)

To determine

The principal unit normal N for the curve r(t)=ti+e2tj.

(c)

To determine

The principal unit normal N for the curve r(t)=4−t2i+tj.

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Chapter 13.4, Problem 6E

Chapter 13.4, Problem 8E

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