Home
Class 12
MATHS
Determine whether the following pair of...

Determine whether the following pair of lines intersect or not. i. `vecr=hati-hatj+lamda(2hati+hatk), vecr=2hati-hatj+mu(hati+hatj-hatk)`

Text Solution

Verified by Experts

Here `vec(a_(1))=veci-vecj, vec(a_(2))=2hati -hatj, vec(b_(1))=2hati+hatk and vec(b_(2))=hati+hatj-hatk`
Now `" "[vec(a_(2))-vec(a_(1))vec(b_(1))vec(b_(2))]=|{:(2-1, ,-1+1,,0),(2,,0,,1),(1,,1,,-1):}|`
`" "=|{:(1,,0,,0),(2,,0,,1),(1,,1,,-1):}|`
`" "=-1 ne 0`
Thus, the two given lines do not intersect.
ii. Here `vec(a_(1))=hati+hatj-hatk, vec(a_(2))=4hati-hatk, vec(b_(1))=3hati-hatj and vec(b_(2))=2hati+ 3hatk`
`rArr" "[vec(a_(2))-vec(a_(1))vec(b_(1))vec(b_(2))]=|{:(4-1,,0-1,,-1+1),(3,,-1,,0),(2,,0,,3):}|`
`" "=|{:(3,,-1,,0),(3,,-1,,0),(2,,0,,3):}|=0`
Thus, the two given lines intersect. Let us obtain the point of intersection of the two given lines.
For some values of `lamda` and `mu`, the two values of `vecr` must coincide. Thus,
`" "hati+hatj-hatk+ lamda(3hati-hatj)=4hati-hatk+mu(2hati+3hatk)`
or `" "(3+2mu-3lamda)hati+(lamda-1)hatj+3muhatk=0`
or `" "3+2mu-3lamda=0, lamda-1=0, 3mu=0`
Solving, we obtain `lamda=1 and mu=0`
Therefore, the point of intersection is `vecr=4hati-hatk`( by putting `mu=0` in the second equation).
Promotional Banner

Topper's Solved these Questions

  • THREE-DIMENSIONAL GEOMETRY

    CENGAGE PUBLICATION|Exercise CONCEPT APPLICATION EXERCISE 3.1|12 Videos

  • THREE-DIMENSIONAL GEOMETRY

    CENGAGE PUBLICATION|Exercise CONCEPT APPLICATION EXERCISE 3.2|15 Videos

  • THREE DIMENSIONAL GEOMETRY

    CENGAGE PUBLICATION|Exercise All Questions|291 Videos

  • TRIGONOMETRIC EQUATIONS

    CENGAGE PUBLICATION|Exercise Archives (Numerical value type)|4 Videos

Similar Questions

Explore conceptually related problems

Computting the shortest between the following pair of lines determine whether they intersect or not: vec r=-3hati+6hatj+lambda(-4hati+3hati+2hatk) and vec r=-2hati+7hatk+mu(-4hati+hatj+hatk)

The shortest distance between the lines whose vector equations are vecr=hati-2hatj+3hatk+lambda(hati-hatj+hatk) and vecr=hati-hatj-hatk+mu(hati+2hatj-2hatk) is -

The coordinates of the point of intersection of the lines vecr=(hati+hatj-hatk)+lambda(3hati-hatj) and vecr=(4hati-hatk)+mu(2hati+3hatk)

Find the vector equation of the following plane in scalar product from vecr.= (hati - hatj) + lambda(hati + 2hatj - hatk) + mu (-hati + hatj + 2hatk) ,

Find the vector equation of the following plane in scalar product form : vec r=(hati+hatj)+lambda(hati+2hatj-hatk)+mu(-hati+hatj-2hatk)

Find the vectore equation of the following plane in scalar product from : vecr=(hat i- hatj)+ lambda( hati+ hat k)+ mu ( hati-2 hatj+3 hatk)

The cosine of the angle between the lines vecr=3hati+2hatj-4hatk+lambda(hati+2hatj+2hatk) and vecr=5hati-2hatj+mu(3hati+2hatj+6hatk) is -

Find the vector equation of the plane that contains the lines vec r=(hati+hatj)+lambda(hati+2hatj-hatk) and vec r=(hati+hatj)+mu(-hati+hatj-2hatk) .Also find the length of the perpendicular drawn from the point (2,1,4) to the plane thus obtained.

Find whether the lines vec r=(hati-hatj-hatk)+lambda(2hati+hatj) and vecr=(2hati-hatj)+mu(hati+hatj-hatk) intersect or not. If intersecting find their point of intersection.

Find the vector equation of the following planes in scalar product from ( vec r. vec n =d) : (i) vecr=(2 hati- hatk)+ lambda hati+ mu( hati- 2 hatj- hatk) (ii) vecr=(1+s-t) hat i +(2-s) hatj+(3-2s+2t) hatk (iii) vecr=hati- hatj+ lambda ( hati + hatj+ hatk) + mu(4 hati-2 hatj +3 hatk)