Determine the magnitude and coordinate direction angles of the resultant force and sketch this vector on the coordinate system.

Determine the magnitude and coordinate direction angles of the resultant force and sketch this vector on the coordinate system.

The Correct Answer and Explanation is:

To determine the magnitude and coordinate direction angles of the resultant force, we first need the vector components of all forces involved. Since you haven’t provided a specific diagram or force vectors, I’ll explain the general method with a common example and then show how to sketch it.

Example:

Suppose we are given three forces acting at a point in space:

• F₁ = 100 N along the x-axis → F₁ = ⟨100, 0, 0⟩
• F₂ = 80 N in the y-direction → F₂ = ⟨0, 80, 0⟩
• F₃ = 60 N in the z-direction → F₃ = ⟨0, 0, 60⟩

Step 1: Add the Force Components

The resultant force FR is the sum of the vectors: FR=F1+F2+F3=⟨100,0,0⟩+⟨0,80,0⟩+⟨0,0,60⟩=⟨100,80,60⟩FR = F₁ + F₂ + F₃ = ⟨100, 0, 0⟩ + ⟨0, 80, 0⟩ + ⟨0, 0, 60⟩ = ⟨100, 80, 60⟩FR=F1​+F2​+F3​=⟨100,0,0⟩+⟨0,80,0⟩+⟨0,0,60⟩=⟨100,80,60⟩

Step 2: Find the Magnitude of the Resultant

Use the 3D magnitude formula: ∣FR∣=(100)2+(80)2+(60)2=10000+6400+3600=20000=141.42 N|FR| = \sqrt{(100)^2 + (80)^2 + (60)^2} = \sqrt{10000 + 6400 + 3600} = \sqrt{20000} = 141.42 \, \text{N}∣FR∣=(100)2+(80)2+(60)2​=10000+6400+3600​=20000​=141.42N

Step 3: Coordinate Direction Angles

Use cosine relations: cos⁡(α)=FRx∣FR∣=100141.42=0.707⇒α=cos⁡−1(0.707)=45∘\cos(\alpha) = \frac{FR_x}{|FR|} = \frac{100}{141.42} = 0.707 \Rightarrow \alpha = \cos^{-1}(0.707) = 45^\circcos(α)=∣FR∣FRx​​=141.42100​=0.707⇒α=cos−1(0.707)=45∘ cos⁡(β)=FRy∣FR∣=80141.42=0.566⇒β=cos⁡−1(0.566)=55.1∘\cos(\beta) = \frac{FR_y}{|FR|} = \frac{80}{141.42} = 0.566 \Rightarrow \beta = \cos^{-1}(0.566) = 55.1^\circcos(β)=∣FR∣FRy​​=141.4280​=0.566⇒β=cos−1(0.566)=55.1∘ cos⁡(γ)=FRz∣FR∣=60141.42=0.424⇒γ=cos⁡−1(0.424)=64.9∘\cos(\gamma) = \frac{FR_z}{|FR|} = \frac{60}{141.42} = 0.424 \Rightarrow \gamma = \cos^{-1}(0.424) = 64.9^\circcos(γ)=∣FR∣FRz​​=141.4260​=0.424⇒γ=cos−1(0.424)=64.9∘

Sketching the Vector

Draw a 3D coordinate system with x, y, and z axes. From the origin, draw a vector pointing into the first octant with components 100 in x, 80 in y, and 60 in z. This vector represents FR.

Summary

• Resultant Force Magnitude: 141.42 N
• Direction Angles:
  • α = 45° with x-axis
  • β = 55.1° with y-axis
  • γ = 64.9° with z-axis