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Question

A particle of mass m moves along a curve along a curve, y=x2. When particle has x-coordinate as 12 and x-component of velocity as 4 m/s then


A

The position coordinate of particle are

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B

The velocity of particle will be along the line 4x-4y-1=0

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C

The magnitude of velocity at that instant is

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Solution

The correct options are


A

The position coordinate of particle are

B

The velocity of the particle will be along the line 4x-4y-1=0

C

The magnitude of velocity at that instant is



(a)Given trajectory is y=x2
position when x=12,

y=(12)2=14m
position (12,14)

(b) Slope at (12,14)
dydx=2x at x=12,dydx=1
Velocity of the particle will be along the tangent at (12,14)


Equation of line, given slope and one point is:
(yy1)=m(xx1)
y14=1(x12)
4y14=2x12 4y1=4x2

4y4x+1=0
velocity will be along the line, 4y4x+1=0
or 4x4y1=0


(c) Given vx=4 m/s at, x=12
Differentiating w.r.t. "t"
y=x2
dydt=2xdxdt
vy=2xvx
at x=12
(vy=2×12(4))
vy=4m/s
magnitude of resultant velocity=v2x+v2y
=42+42
=2×16
=42 m/s


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