Simply supported, center point load
delta max = P L^3 / (48 E I)
Structural calculator
Beam Deflection Calculator
Calculate elastic deflection, support reactions, bending moment, slope, and serviceability ratio for common beam cases.
Interactive calculator
Enter beam values
Choose a beam case, set units, and use the live diagram to inspect the elastic deflected shape and moment profile.
Result
Interactive diagram
Deflected shape and moment profile
The deflection curve is visually exaggerated so the shape is readable. Use the numeric result for actual deflection.
Enter values to check serviceability
About this calculator
How it works
The beam deflection calculator uses standard Euler-Bernoulli elastic beam formulas for common simply supported and cantilever cases. It is intended for quick serviceability checks, structural coursework, preliminary member sizing, and comparison of span, stiffness, load, and section inertia.
Formulas
Common maximum deflection formulas
Simply supported, uniform load
delta max = 5 W L^3 / (384 E I)
Cantilever, end point load
delta max = P L^3 / (3 E I)
Cantilever, uniform load
delta max = W L^3 / (8 E I)
Worked example
Example calculation
Inputs
A 4 m simply supported steel beam with a 10 kN center load, E = 200 GPa, and I = 8e-6 m4.
Maximum deflection
delta = P L^3 / (48 E I) = 0.00833 m, or 8.33 mm.
Guide
How to use this calculator
- Select the support and load case that best matches the beam.
- Enter the load, span, elastic modulus, and second moment of area.
- Use the material preset buttons when you want a quick elastic modulus value.
- Enter a deflection limit such as L/360 to compare the result with a serviceability target.
- Use the diagram for shape intuition and the table for numeric design checks.
Reference
What the results mean
Maximum deflection
The largest elastic displacement predicted by the selected closed-form beam equation.
L/deflection ratio
Span divided by maximum deflection. Larger values mean a stiffer beam relative to its span.
Maximum moment
The largest bending moment for the selected support and load condition.
Slope
The rotation of the beam tangent at the support or end, depending on the selected case.
Assumptions and limits
Before using the result
- Formulas assume small deflection, linear elastic behavior, constant E and I, and ideal support conditions.
- Uniform load input is total load over the full span, not load per meter.
- Final design should also check strength, shear, bearing, buckling, vibration, lateral-torsional stability, connections, load combinations, and code requirements.
FAQ
Beam Deflection Calculator questions
What beam cases does this deflection calculator support?
It supports simply supported beams with a center point load, simply supported beams with a uniformly distributed load, cantilever beams with an end point load, and cantilever beams with a uniformly distributed load.
What units should I use for beam deflection?
You can select common units beside each input. The calculator converts values internally to N, m, Pa, and m4 before solving.
Can I use this for final structural design?
No. Use it for education and early screening only. Final design must verify loading, boundary conditions, code limits, lateral restraint, shear, strength, stability, connections, and serviceability.
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