Class 12th

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New answer posted

a year ago

0 Follower 3 Views

V
Vishal Baghel

Contributor-Level 10

Given: Equation of the family of curves y=ex(acosx+bsinx)..........(i)

Differentiating both sides with respect to x, we get:

y'=ex(acosx+bsinx)+ex(acosx+bsinx)y'=ex[(a+b)cosx(ab)sinx]..........(2)

Again, differentiating with respect to x, we get:

y"=ex[(a+b)cosx(ab)sinx]+ex[(a+b)sinx(ab)cosx]y"=ex[2bcosx2asinx]y"=2ex(bcosxasinx)y"2=ex(bcosxasinx)..........(3)

Adding equations (1) and (3), we get:

y+y"2=ex[(a+b)cosx(ab)sinx]y+y"2=y'2y+y"=2y'y"2y'+2y=0

This is the required differential equation of the given curve.

New answer posted

a year ago

0 Follower 2 Views

A
alok kumar singh

Contributor-Level 10

95. Let y = x2 + 3x + 2

So,  dydx=2x+3+0  (differentiation w r t 'x')

? d2ydx2=2+0  (Again “ “ ) = 2

New answer posted

a year ago

0 Follower 2 Views

V
Vishal Baghel

Contributor-Level 10

Given: Equation of the family of curves  y=e2x(a+bx)..........(1)

Differentiating both sides with respect to x, we get:

y'=2e2x(a+bx)+e2x.by'=e2x(2a+2bx+b)..........(2)

Multiplying equation (1) with (2) and then subtracting it from equation (2), we get:

y'2y=e2x(2a+2bx+b)e2x(2a+2bx)y'2y=be2x..........(3)

Differentiating both sides with respect to x, we get:

y"2y'=2be2x..........(4)

Dividing equation (4) by equation (3), we get:

y"2y'y'2y=2y"2y'=2y'4yy"4y'+4y=0

This is the required differential equation of the given curve.

New answer posted

a year ago

0 Follower 5 Views

V
Vishal Baghel

Contributor-Level 10

Given: Equation of the family of curves  y=ae3x+be2x..........(i)

Differentiating both sides with respect to x, we get:

y'=3ae3x2be2x..........(ii)

Again, differentiating both sides with respect to x, we get:

y"=9ae3x4be2x..........(iii)

Multiplying equation (i) with (ii) and then adding it to equation (ii), we get:

(2ae3x+2be2x)+(3ae3x2be2x)=2y+y'5ae3x=2y+y'ae3x=2y+y'5

Now, multiplying equation (i) with (iii) and subtracting equation (ii) from it, we get:

(3ae3x+2be2x)(3ae3x2be2x)=3yy'5be2x=3yy'be2x=3yy'5

Substituting the values of ae3x and be2x in equation (iii), we get:

y"=9.(2yy')5+4(3yy')5y"=18y+9y'5+12y4y'5y"=30y+5y'5y"=6y+y'y"y'6y=0

This is the required differential equation of the given curve.

New answer posted

a year ago

0 Follower 2 Views

V
Vishal Baghel

Contributor-Level 10

Given: Equation of the family of curves  y2=a(b2x2)

Differentiating both sides with respect to x, we get:

2ydydx=a(2x)2yy'=2axyy'=ax..........(1)

Again, differentiating both sides with respect to x, we get:

y'.y'+yy"=a(y')2+yy"=a..........(2)

Dividing equation (2) by equation (1), we get:

(y')2+yy"yy'=aaxxyy"+x(y')2yy"=0

This is the required differential equation of the given curve.

New answer posted

a year ago

0 Follower 9 Views

A
alok kumar singh

Contributor-Level 10

94. Kindly go through the solution

New answer posted

a year ago

0 Follower 2 Views

V
Vishal Baghel

Contributor-Level 10

Given: Equation of the family of curves  xa+yb=1.......... (i)

Differentiating both sides of the given equation with respect to x, we get:

1a+1bdydx=01a+1by'=0

Again, differentiating both sides with respect to x, we get:

0+1by"=01by"=0y"=0

Hence, the required differential equation of the given curve is y"=0

New answer posted

a year ago

0 Follower 1 View

A
alok kumar singh

Contributor-Level 10

93. Kindly go through the solution

New answer posted

a year ago

0 Follower 5 Views

V
Vishal Baghel

Contributor-Level 10

In a particular solution, there are no arbitrary constant.

Hence, option (D) is correct.

New answer posted

a year ago

0 Follower 9 Views

A
alok kumar singh

Contributor-Level 10

92. Kindly go through the solution

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