Answer:
R = ( 24.68 i^ + 16j^ + 25.68k^) lb
Step-by-step explanation:
The way to work the vectors is to add each component independently of the others and when you have the resulting components the vector is constructed.
Let's write the competency of each vector
X axis
Ax = 10 lb
Bx = -3 lb
The vector C is given in the form of magnitude (C = 25 lb) and angle 45º so we will use trigonometry to find its components
Cos θ = Cx / C
Cx = C cos θ
Cx = 25 cos 45
Cx = 17.68 lb
Axis y
Ay = 16 lb
By = 0
Cy = 0
Z axis
Az = 6 lb
Bz = 2 lb
sin θ = Cz / C
Cz = C sin θ
Cz = 25 sin 45
Cz = 17.68 lb
We calculate in the components of the resulting vector
Rx = Ax + bx + Cx
Rx = 10 -3 + 17.68
Rx = 10 -3 + 17.68
Rx = 24.68 lb
Ry = Ay + By + Cy
Ry = 16 + 0 + 0
Ry = 16 lb
Rz = Az + Bz + Cz
Rz = 6 +2 + 17.68
Rz = 25.68 lb
We build the resulting vector
R = ( 24.68 i^ + 16j^ + 25.68k^) lb
R = √ (Rrx² + Ry² + Rz²)
R = √ (24.68² + 16² + 25.68²)
R = 39.05 lb
Note that this is a three-dimensional system so we have angles between xy, xz and yz
Let us calculate each angle separately, for this we will use the concept of cosine directors
Cos α = x / R
Cos β = y / R
Cos γ = z / R
cos α = 24.68 / 39
α = cos⁻¹ 0.632
α = 50.8º
Cos β = 16/39
β = cos⁻¹ (04097)
β = 68.8º
cos γ = 25.68/39
γ= cos⁻¹ (0.658)