Given that,
Modulus of vector A=4.00
The angle made by the vector A with the y axis, θ₁=33.0°
The modulus of vector B=3.20 m
The angle made by the vector B with the x-axis is θ₂=40.0+90.0=130°
The modulus of the vector C=2.70 m
The angle made by the vector C with x-axis θ₃=-90°
The x and y components of the vector can be written as
Where r is the magnitude (or modulus) of the vector and θ is the angle made by the vector.
Or a vector, in cartesian coordinates, can be written as,
Therefore, vector A is cartesian coordinates is
And the vector B is
And vector C is given by,
The given equation is
Let this represents a vector V
On substituting the known values,
(a) This is the representation with the unit vectors, where i and j are the unit vectors along the x-axis and y-axis respectively.
b) The modulus of any vector is the square root of the sum of the squares of its components.
That is, the magnitude of the vector V is
The angle of this vector with the x-axis is given by
The negative sign indicates that the vector is below the positive x-axis
Therefore the modulus of the resultant of the above equation is 8.90 m and its angle with the positive x-axis is -10.36°