Question

The parallelogram law is used to find the resultant of two vectors' Find the magnitude of the resultant of two vectors in terms of their magnitudes and angle between them.

Answer 1

Explanation:

Parallelogram law states that if two vectors are considered to be the adjacent sides of a Parallelogram, then the resultant of two vectors is given by the vector which is a diagonal passing through the point of contact of two vectors.

In the figure

P

and

Q

are two vectors.with magnitudes equal to length OA and OB respectively and making angle θ between them. Complete the parallelogram, OACB,

Join diagonal OC , that makes angle α with vector

P

.

According to parallelogram law of vectors the resultant is represented by the diagonal passing through the point of contact of two vectors.

To find the magnitude of resultant , produce a perpendicular CD to meet OA produced to D.

From △ OCD,

OC

2

=OD

2

+CD

2

Now

C

D=

A

C sinθ=

Q

sinθ

AD=

A

Ccosθ=

Q

cosθ

O

D=

O

A+

A

D=

P

+

Q

cosθ

Putting these values and representing resultant vector OC by

R

, magnitude of the resultant is given by

R

2

=(

P

+

Q

cosθ)

2

+(

Q

sinθ)

2

=

P

2

+

Q

2

+2

P

Q

cosθ

In △ OCD,

tanα=

OD

CD

=

P

+

Q

cosθ

Q

sinθ

Resultant acts in the direction making an angle α=tan

−1

(

P

+

Q

cosθ

Q

sinθ

) with direction of vector P .

solution

Answer 2

Answer:

Explanation:

Parallelogram law states that if two vectors are considered to be the adjacent sides of a Parallelogram, then the resultant of two vectors is given by the vector which is a diagonal passing through the point of contact of two vectors.

In the figure

P

and

Q

are two vectors.with magnitudes equal to length OA and OB respectively and making angle θ between them. Complete the parallelogram, OACB,

Join diagonal OC , that makes angle α with vector

P

.

According to parallelogram law of vectors the resultant is represented by the diagonal passing through the point of contact of two vectors.

To find the magnitude of resultant , produce a perpendicular CD to meet OA produced to D.

From △ OCD,

OC

2

=OD

2

+CD

2

Now

C

D=

A

C sinθ=

Q

sinθ

AD=

A

Ccosθ=

Q

cosθ

O

D=

O

A+

A

D=

P

+

Q

cosθ

Putting these values and representing resultant vector OC by

R

, magnitude of the resultant is given by

R

2

=(

P

+

Q

cosθ)

2

+(

Q

sinθ)

2

=

P

2

+

Q

2

+2

P

Q

cosθ

In △ OCD,

tanα=

OD

CD

=

P

+

Q

cosθ

Q

sinθ

Resultant acts in the direction making an angle α=tan

−1

(

P

+

Q

cosθ

Q

sinθ

) with direction of vector P .

solution

Explanation: