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- Structural Engineering Calc. Vs. Levers Calculator
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Structural Engineering Calc. vs Levers Calculator Usage & Stats
Structural Engineering Calculator contains 58 Calculations of different Structural and Civil Engineering parameters.
- Available in Imperial (USCS) and Metric Units (SI UNITS).
Structural Engineering Calc. contains following 58 Calculators:
1.Shear Capacity of Flexural Members
2.Critical Ratio
3.Effective Length Factor
4.Slenderness Ratio
5.Allowable Compressive Stress of Columns (Slenderness Ratio ‹ Critical Ratio)
6.Allowable Compressive Stress of Columns (Slenderness Ratio › Critical Ratio)
7.Safety Factor
8.Maximum load - Axially Loaded Members
9.Allowable Bending Stress (Compact Members)
10.Allowable Bending Stress (NonCompact Members)
11.Moment Gradient Factor
12.Allowable Stress - Compression Flange
13.Plastic Moment
14.Maximum Unbraced Length for Plastic Design (I-Shaped Beams)
15.Maximum Unbraced Length for Plastic Design (Solid Rectangular Bars and Symmetrical Box Beams
16.Laterally Unbraced Length - Full Plastic Bending capacity (I Shapes and Channels)
17.Laterally Unbraced Length - Full Plastic Bending capacity (Solid Rectangular Bars and Box Beams)
18.Laterally Unbraced Length - Full Plastic Bending capacity (Solid Rectangular Bars bent about major axis)
19.Limiting Buckling Moment
20.Nominal Moment (Compact Beams)
21.Critical Elastic Moment - Compact Beams
22.Critical Elastic Moment - Solid Rectangular Bars and Symmetrical Box
23.Allowable Shear Stress
24.Allowable Shear Stress with Tension Field Action
25.Area required by the Bearing Plate (Plate Covering the Full Area of Concrete Support)
26.Area required by the Bearing Plate (Plate Covering ‹ than the Full Area of Concrete Support)
27.Minimum Plate Thickness
28.Area required for a Base Plate under a Column supported by a Concrete
29.Plate Length
30.Thickness of Plate (Cantilever Bending)
31.Flange Thickness (H-Shaped Column)
32.Web thickness (H-Shaped Columns)
33.Actual Bearing Pressure under the Plate
34.Allowable Bearing Stress (Rollers/Rockers)
35.Web Depth/Thickness Ratio (Unstiffened Web)
36.Web Depth/Thickness Ratio (Transverse Stiffeners)
37.Deflection at the Top (Wall with Solid Rectangular Cross Section)
38.Deflection at the Top (Shear Wall with a Concentrated Load at the Top)
39.Deflection at the Top (Fixed Wall against rotation at the top)
40.Combined Axial Compression (Ratio of Computed Axial Stress to Allowable Axial Stress › 0.15)
41.Combined Axial Compression(Ratio of Computed Axial Stress to Allowable Axial Stress ‹= 0.15)
42.Axial Stress for a Concentrated Load (Applied at a distance larger than depth of the beam from the end of beam)
43.Axial Stress for a Concentrated Load (Applied close to the beam end)
44.Concentrated Load of Reaction (Applied at a distance from the beam end of atleast half the depth of beam)
45.Concentrated Load of Reaction (Applied closer than half the depth of beam)
46.Relative Slenderness of Web and Flange
47.Total Column Load (Relative Slenderness of Web and Flange ‹ 2.3)
48.Total Column Load (Relative Slenderness of Web and Flange › 1.7)
49.Combined Cross-Sectional Area of a pair of Column-Web Stiffeners
50.Column Web Depth clear of Fillets"
51.Thickness of Column Flange"
52.Allowable Bearing Stress on Projected Area of Fasteners
53.Maximum Unit Stress in Steel
54.Maximum Stress in the Bottom Flange
55.Number of Shear Connectors
56.Total Horizontal Shear (Based on Area of Concrete Flange)
57.Total Horizontal Shear (Based on Area of Steel Beam)
58.Total Horizontal Shear (Based on Area of Longitudinal Reinforcement)
- Available for both iPad and iPhone.
- Can use either ( . ) dot or ( , ) comma as decimal separator, based on regional settings of the device.
- Apple App Store
- Paid
- Productivity
Store Rank
- -
The Levers Calculator is a physics/math calculator designed for quick and easy determination of effort force, load force, distance from load force to fulcrum, distance from effort force to fulcrum, or Mechanical Advantage.
Features:
- Instant calculation
- Results are copyable to other apps
- Formulas included as references
- Supports up to 16 decimal places
- Supports various units for each input
A lever is a simple machine consisting of a beam or rigid rod pivoted at a fixed hinge, or fulcrum. Classified into three types based on the location of fulcrum, load, and effort, levers amplify input force to provide a greater output force, creating leverage. The mechanical advantage of a lever is the ratio of the output force to the input force.
Classes of levers:
1. Class 1: Fulcrum in the middle - effort on one side, load on the other (e.g., seesaw, crowbar).
2. Class 2: Resistance in the middle - effort on one side, fulcrum on the other (e.g., wheelbarrow, nutcracker).
3. Class 3: Effort in the middle - load on one side, fulcrum on the other (e.g., tweezers, human mandible).
Mechanical advantage is a measure of force amplification. It's expressed by the law of the lever, where the moment action on both sides is equal:
Fe x De = Fl x Dl
Where:
- F_e = effort force (N, lb)
- F_l = load force (N, lb)
- D_l = distance from load force to fulcrum (m, ft)
- D_e = distance from effort force to fulcrum (m, ft)
The effort force can be calculated using the formula:
Fe = Fl x Dl / De
Fe = m x g x Dl / De
where
m = mass (kg)
g = acceleration of gravity (9.81 m/s²)
Thanks for your support, and please visit nitrio.com for more apps for your iOS devices.
- Apple App Store
- Paid
- Productivity
Store Rank
- -
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Structural Engineering Calc. VS.
Levers Calculator
December 12, 2024