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This course is about practical thumb rules used in high-rise and multistorey building construction projects for early design understanding, quantity estimation, material planning, cost planning, floor cycle planning, structural coordination, services coordination, and basic project checking.
This course is useful for civil engineers, quantity surveyors, estimation engineers, billing engineers, planning engineers, site engineers, project engineers, construction managers, structural coordination teams, and professionals working on high-rise building projects.
Yes. Fresh civil engineers can use this course to understand how high-rise buildings are roughly planned, estimated, checked, and coordinated before detailed design and execution.
Yes. Experienced engineers can use it to improve quick checking, preliminary estimation, material forecasting, BOQ planning, floor-wise quantity planning, and site coordination.
Thumb rules are practical approximate rules used for quick understanding, early estimation, comparison, and checking. They do not replace detailed design, but they help engineers think faster and avoid basic mistakes.
No. Thumb rules are only for preliminary understanding and quick checks. Final design must always be done as per approved drawings, project specifications, applicable codes, and qualified engineering review.
You can check the course details here: https://www.bhadanisrecordedlectures.com/courses/Thumb-Rules-For-High-Rise-Multistorey-Buildings-Construction-Projects--Design--Estimation--Online-Course-6885bd7821ebf933831204fb
Yes. The course focuses on high-rise and multistorey buildings, including projects from G+15 to G+45 and beyond.
Yes. The course covers thumb rules connected with both design understanding and estimation, including structural items, building services, finishing, manpower, equipment, cost, and project timing.
High-rise projects involve large quantities and repeated floors. Thumb rules help engineers make quick checks for quantities, costs, floor cycles, manpower, concrete, reinforcement, formwork, and services coordination.
Yes. The course is useful for preliminary estimation because it explains quick ways to understand quantities, material requirements, floor-wise cost, and total project estimate direction.
Preliminary estimation is an early cost or quantity estimate prepared before every detail is fully finalized. It helps in budgeting, feasibility, and early planning.
Yes. Site selection and feasibility study are part of the course. High-rise projects need careful checking of access, soil, surroundings, utilities, restrictions, and project feasibility.
Site selection affects foundation, basement planning, tower location, crane access, road access, utilities, cost, approvals, and construction difficulty.
Yes. Feasibility study is included because high-rise projects require early review of cost, land use, height, structure, services, parking, and project viability.
Yes. You can view and enroll through this course link: https://www.bhadanisrecordedlectures.com/courses/Thumb-Rules-For-High-Rise-Multistorey-Buildings-Construction-Projects--Design--Estimation--Online-Course-6885bd7821ebf933831204fb
Yes. Soil investigation and foundation recommendations are included because foundation selection depends heavily on soil condition and load.
Without soil investigation, foundation planning can go wrong. In high-rise buildings, foundation cost and safety depend strongly on soil bearing, groundwater, depth, and settlement behavior.
Yes. Foundation depth, pile foundation, raft foundation, basement retaining walls, and related early estimation points are covered.
A raft foundation is a large foundation slab that supports columns and walls over a wide area. It is often considered where soil condition and building loads require wider load distribution.
A pile foundation transfers building load to deeper soil or rock layers. It is common in high-rise projects where upper soil is not strong enough.
Yes. The course includes pile and raft foundation sizing thumb rules for early understanding and estimation.
Yes. Basic loading criteria such as dead load, live load, wind load, and seismic load are included.
Wind load becomes more important as building height increases. It affects structural stability, sway, serviceability, façade design, and overall safety.
Seismic loads are important because buildings must resist earthquake forces depending on the seismic zone, height, structure type, and design requirements.
Yes. Preliminary column sizing thumb rules are included to help engineers understand early structural planning.
No. Column sizing must be finalized through detailed structural design. Thumb rules only help in early planning and rough checking.
Yes. Beam depth and width estimation are included for early design understanding and quantity planning.
Yes. Slab thickness calculation rules are part of the course.
Yes. Wall thickness and partition planning are included because walls affect load, layout, cost, quantity, and services coordination.
Floor height affects building height, services space, façade quantity, staircase planning, lift travel, cost, approval limits, and usable space.
Yes. Preliminary floor height considerations are included.
Yes. Concrete grade selection thumb rules are covered, including high-strength concrete understanding for tall buildings.
Yes. Rebar quantity estimation thumb rules are included for quick quantity planning.
No. Final reinforcement quantities must be based on approved structural drawings and bar schedules. Thumb rules help only during early estimation and checking.
Yes. Estimation of structural steel requirements is included.
Yes. Formwork area and material estimation are included.
Formwork affects floor cycle time, concrete progress, labour planning, cost, quality, and construction speed.
Quantity surveyors can join here: https://www.bhadanisrecordedlectures.com/courses/Thumb-Rules-For-High-Rise-Multistorey-Buildings-Construction-Projects--Design--Estimation--Online-Course-6885bd7821ebf933831204fb
Yes. Staircase design and area thumb rules are included.
Staircases affect emergency movement, floor layout, fire safety, structural planning, finishing quantities, and usable area.
Yes. Lift core and shaft size guidelines are included.
Lift core planning affects vertical movement, structural stiffness, service routing, emergency planning, and floor efficiency.
Yes. Shear wall design guidelines and core wall-related thumb rules are included for early understanding.
A shear wall is a vertical structural wall used to resist lateral forces such as wind and earthquake forces.
Yes. Expansion joint spacing, movement joint width, and cover detailing are included.
Expansion joints help manage building movement due to temperature, shrinkage, settlement, and structural movement.
Yes. Podium slab design and loading thumb rules are included.
Yes. Basement ventilation, basement area, retaining wall height, retaining wall thickness, ramp planning, and parking estimation are included.
Basement work involves excavation, groundwater, retaining structures, ventilation, parking layout, ramp access, drainage, waterproofing, and safety.
Yes. Car parking estimation for podium and basement areas is included.
Yes. Ramp slope and width guidelines are included.
Ramp planning affects vehicle movement, safety, parking efficiency, basement usability, and approval compliance.
Yes. Façade design and cladding estimation rules are included.
Façade cost can be high in high-rise buildings. Early estimation helps in budgeting, material planning, and design decisions.
Yes. Window and glazing area ratios are included.
Yes. External plastering and painting coverage thumb rules are included.
Yes. Tiling, POP, paint, bathroom finishing, waterproofing, and fixing-related thumb rules are covered.
Yes. Terrace waterproofing and drainage layout are included.
Waterproofing protects the building from leakage, dampness, repair cost, finishing damage, and long-term maintenance issues.
Yes. Balcony and chajja cantilever thumb rules are included.
Yes. Quantity estimation of construction materials is one of the important areas of the course.
Common materials include concrete, reinforcement, formwork, blocks, plaster, tiles, paint, waterproofing, steel, façade material, pipes, cables, and finishing items.
Yes. Quantity estimation per floor and total project quantity estimation are included.
High-rise buildings repeat floor layouts. Floor-wise estimation helps in budgeting, procurement, progress tracking, labour planning, and billing.
Yes. Cost estimation per square foot and per floor is included.
It can be used for early comparison, but final budgeting should be based on detailed BOQ, specifications, drawings, rates, and project conditions.
Estimation engineers can enroll here: https://www.bhadanisrecordedlectures.com/courses/Thumb-Rules-For-High-Rise-Multistorey-Buildings-Construction-Projects--Design--Estimation--Online-Course-6885bd7821ebf933831204fb
Yes. BOQ preparation thumb rules are included.
BOQ is used for estimation, tendering, billing, procurement, cost control, and contract management.
Yes. Estimation of manpower requirements is included.
Wrong manpower planning can cause delay, idle labour, poor productivity, or unnecessary cost.
Yes. Project time estimation based on floor cycles is included.
Floor cycle time means the time taken to complete one typical floor cycle of structural or finishing work, depending on the project stage.
Yes. High-rise shuttering cycle time estimation is included.
Floor cycle planning controls construction speed, labour flow, material delivery, equipment planning, and project completion timeline.
Yes. Concrete pour sequence and pour volume calculation are included.
Yes. Concrete consumption per floor in high-rise buildings is included.
Yes. Boom pump reach and number of pumps required are included.
Yes. Tower crane selection, positioning, and quantity estimation are included.
Tower crane planning affects material lifting, floor cycle, site logistics, safety, cost, and construction speed.
Yes. Material hoist planning for high-rise floors is included.
Yes. Temporary structures such as labour camp and site office planning are included.
Yes. Underground and overhead water tank design and estimation are included.
Yes. Firefighting, emergency exits, fire stair width, pressurization, escape routes, fire duct planning, and fire compartmentation are included.
Fire planning is critical because evacuation, firefighting access, smoke control, stair planning, emergency power, and compartmentation directly affect life safety.
Yes. Plumbing shaft, riser, pipe sleeve, water supply, and drainage-related thumb rules are included.
Yes. Electrical conduit, shaft sizing, common area lighting load, and emergency generator room planning are included.
Yes. Air-conditioning duct routing, shaft insulation, and duct fire rating rules are included.
Yes. Stormwater drainage system capacity guidelines and high-rise water drainage planning are included.
Yes. Lightning protection system thumb rules are included.
Yes. Terrace garden load considerations are included.
Yes. Façade cleaning system thumb rules are included for high-rise maintenance planning.
The course page mentions 110 modules with total training time of 5 hours 36 minutes 57 seconds.
You can join the course here: https://www.bhadanisrecordedlectures.com/courses/Thumb-Rules-For-High-Rise-Multistorey-Buildings-Construction-Projects--Design--Estimation--Online-Course-6885bd7821ebf933831204fb
You should join this course if you want to understand high-rise building thumb rules for early design checking, structural estimation, material quantities, floor-wise cost, BOQ planning, services coordination, construction cycle planning, equipment planning, and project estimation.