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Chapter 11: Q. 16 (page 898)

Find

(a) the displacement vectors from r(a) tor(b),

(b) the magnitude of the displacement vector, and

(c) the distance travelled by a particle on the curve from a to b.

r(t) = et sint, et cost, eta = 0, b = 1

Short Answer

Expert verified

(a)Thedisplacementvectorfromr(a)tor(b)isesin1,ecos1-1,e-1(b)Hencethemagnitudeofthedisplacementvectoris=e2-2e(cos1+1)+e2+2(c)Thusthedistancetravelledbytheparticlefromatobis3e-1

Step by step solution

01

Part (a) Step 1. Given information

The given function is r(t) = et sint, et cost, eta = 0, b = 1.

02

Part (a) Step 2. Finding the  displacement vector  

=r(b)-ra(a)Thedisplacementvectorfromr(a)tor(b)=r(b)-ra(a)=r(1)-r(0)=esin1,ecos1,e-sin0,cos0,1=esin1,ecos1,e-0,1,1=esin1,ecos1-1,e-1Thedisplacementvectorfromr(a)tor(b)isesin1,ecos1-1,e-1.

03

Part (b) Step 1.  Finding the magnitude of the displacement vector, 

Themagnitudeofdisplacementvectoresin1,ecos1-1,e-1=e2sin21,ecos1-12,e-12=e2-2e(cos1+1)+e2+2Hencethemagnitudeofthedisplacementvectoris=e2-2e(cos1+1)+e2+2

04

Part (c) Step 1. Finding the  displacement vector 

r(t)=etsint,etcost,etr'(t)=etsint,etcost,etr'(t)=etsint+etcost2+etsint-etcost,2+et2Thedistancetravelledbytheparticlefromatobis∫abr'(t)dt∫3e2t=3et-e0=3et|01Thusthedistancetravelledbytheparticlefromatobis3e-1

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Most popular questions from this chapter

Find parametric equations for each of the vector-valued functions in Exercises 26–34, and sketch the graphs of the functions, indicating the direction for increasing values of t.

r(t)=(3+t)i+(3-1t)jfort>0

Evaluate and simplify the indicated quantities in Exercises 35–41.
(1,t,t2)-(t,t2,t3)

For each of the vector-valued functions, find the unit tangent vector.

r(t2)=(t2+5,5t,4t3)

Under what conditions does a differentiable vector-valued functionr(t) not have a unit tangent vector at a point in the domain of r(t)?

For each of the vector-valued functions in Exercises, find the unit tangent vector and the principal unit normal vector at the specified value of t.

rt=sin2t,cos2t,t,t=Ï€4
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