![]() Building and Structures Formulas Load-and-Resistance Factor Design for Shear in Buildings Allowable-Stress Design for Building Columns Load-and-Resistance Factor Design for Building Columns Allowable-Stress Design for Building Beams Load-and-Resistance Factor Design for Building Beams Allowable-Stress Design for Shear in Buildings Stresses in Thin Shells Bearing Plates Column Base Plates Bearing on Milled Surfaces Plate Girders in Buildings Load Distribution to Bents and Shear Walls Combined Axial Compression or Tension and Bending Webs under Concentrated Loads Design of Stiffeners under Loads Fasteners in Buildings Composite Construction Number of Connectors Required for Building Construction Ponding Considerations in Buildings Lightweight Steel Construction Choosing the Most Economic Structural Steel Steel Carbon Content and Weldability Statically Indeterminate Forces and Moments in Building Structures Roof Live Loads Chapter 10. ![]() Soil and Earthwork Formulas Physical Properties of Soils Index Parameters for Soils Relationship of Weights and Volumes in Soils Internal Friction and Cohesion Vertical Pressures in Soils Lateral Pressures in Soils, Forces on Retaining Walls Lateral Pressure of Cohesionless Soils Lateral Pressure of Cohesive Soils Water Pressure Lateral Pressure from Surcharge Stability of Slopes Bearing Capacity of Soils Settlement under Foundations Soil Compaction Tests Compaction Equipment Formulas for Earthmoving Scraper Production Vibration Control in Blasting Chapter 9. ![]() Surveying Formulas Units of Measurement Theory of Errors Measurement of Distance with Tapes Vertical Control Stadia Surveying Photogrammetry Chapter 8. Timber Engineering Formulas Grading of Lumber Size of Lumber Bearing Beams Columns Combined Bending and Axial Load Compression at Angle to Grain Recommendations of the Forest Products Laboratory Compression on Oblique Plane Adjustment Factors for Design Values Fasteners for Wood Adjustment of Design Values for Connections with Fasteners Roof Slope to Prevent Ponding Bending and Axial Tension Bending and Axial Compression Solid Rectangular or Square Columns with Flat Ends Chapter 7. Concrete formulas Reinforced Concrete WaterCementitious Materials Ratio Job Mix Concrete Volume Modulus of Elasticity of Concrete Tensile Strength of Concrete Reinforcing Steel Continuous Beams and One-Way Slabs Design Methods for Beams, Columns, and Other Members Properties in the Hardened State Tension Development Lengths Compression Development Lengths Crack Control of Flexural Members Required Strength Deflection Computations and Criteria for Concrete Beams Ultimate-Strength Design of Rectangular Beams with Tension Reinforcement Only Working-Stress Design of Rectangular Beams with Tension Reinforcement Only Ultimate-Strength Design of Rectangular Beams with Compression Bars Working-Stress Design of Rectangular Beams with Compression Bars Ultimate-Strength Design of I- and T-beams Working-Stress Design of I- and T-beams Ultimate-Strength Design for Torsion Working-Stress Design for Torsion Flat-Slab Construction Flat-Plate Construction Shear in Slabs Column Moments Spirals Braced and Unbraced Frames Shear Walls Concrete Gravity Retaining Walls Cantilever Retaining Walls Wall Footings Chapter 6. Piles and Piling Formulas Allowable Loads on Piles Laterally Loaded Vertical Piles Toe Capacity Load Groups of Piles Foundation-Stability Analysis Axial-Load Capacity of Single Piles Shaft Settlement Shaft Resistance in Cohesionless Soils Chapter 5. Column Formulas General Considerations Short Columns Eccentric Loads on Columns Columns of Special Materials Column Base Plate Design American Institute of Steel Construction Allowable-Stress Design Approach Composite Columns Elastic Flexural Buckling of Columns Allowable Design Loads for Aluminum Columns Ultimate Strength Design Concrete Columns Design of Axially Loaded Steel Columns Chapter 4. Beam Formulas Continuous Beams Ultimate Strength of Continuous Beams Beams of Uniform Strength Safe Loads for Beams of Various Types Rolling and Moving Loads Curved Beams Elastic Lateral Buckling of Beams Combined Axial and Bending Loads Unsymmetrical Bending Eccentric Loading Natural Circular Frequencies and Natural Periods of Vibration of Prismatic Beams Torsion in Structural Members Strain Energy in Structural Members Fixed-End Moments in Beams Chapter 3. Conversion Factors for Civil Engineering Practice Chapter 2. Environmental Engineering Gate exam notesĬivil Engineering Formulas Chapter 1. ![]() Electronics Engineering Solution Manuals.Electrical Engineering Solution Manuals. ![]()
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