How do you apply a uniform total force of 200 lb on two different faces of a model using SOLIDWORKS Simulation?

• A. Select the two faces and input a normal to direction force of 200 lb on each face
• B. Select the two faces and a reference plane. Apply 100 lb on each face
• C. Apply equal force to the two faces. The force on each face is the total force divided by the total area of the two faces
• D. None of the above

Answer: (C)

To apply a uniform total force of 200 lb on two different faces of a model in SOLIDWORKS Simulation effectively, one must recognize that the total force should be evenly distributed across the selected faces. Specifying equal forces on the two faces aligns with the principles of static equilibrium and ensures that the total force imparted on the model matches the desired load.

When you divide the total force of 200 lb by the number of faces— in this case, two—you are allocating 100 lb to each face. This ensures that the simulation accurately reflects the intended loading condition, allowing for realistic analysis of how the model will behave under this force.

This approach is particularly advantageous because it accounts for the uniform distribution of force across the selected faces, without exceeding the limitations of what can be applied at each location. It takes into consideration that the sum of the forces acting on the model should align with the total applied load, ensuring structural integrity throughout the analysis.

In contrast, applying a normal force of 200 lb on each face does not reflect the uniform application of force since it would result in a total force of 400 lb—double the intended amount. Similarly, applying different values or using reference planes without proper force distribution does not accurately represent the