MSBTE Civil Engineering 6th Semester K scheme Syllabus

Hello everyone my name is Tejas and welcome to the My India Jobs website.

Friends in this post we’re going to see MSBTE Civil Engineering 6 Semester Case Scheme Syllabus 2025.

Show guides in six semesters there are some elective subjects for you that you can choose Before going into 6 semester.

Also know the guides while filling exam form make sure select particular subject which you are going to study in your college.

So guys there are subjects such as management contract and buildings design of RCC and steel structures maintenance and repair of structures capstone project and here are some elective subjects such as building services earthquake resistance building and solid waste management.

So according to me the management subject is very easy for you to learn it because there are some MCQ questions based on management in your examination.

You can prefer these learning material for to study management subject MCQS from the official website of MSBTE.

And Total four core subjects in your diploma in Civil Engineering six semester.

Also note that you have a capstan project in 6th semester.

List of MSBTE Civil Engineering 6th Semester Subjects

MSBTE 316307 Contracts and Building Syllabus

Course Title : CONTRACTS AND BILLING

Course Code : 316307

Unit – I Fundamentals of Execution of PWD works.

1.1 Organization structure of Public Works Department (PWD).

1.2 Roles and responsibilities of engineering personnel, Financial powers if any.

1.3 PWD Procedure of initiating the work .

1.4 Methods used in PWD for carrying out works- contract method, departmental method -rate list method, piece work method, day’s work method, employing labours on daily wages basis.

Unit – II Contracts: Types and Clauses

2.1 Definition of contract, Objects of contract, requirements of valid contract,

2.2 Indian Contract Act 1872 – objectives of the act, Clauses related to contract formation, contract performance, breach of contract, importance of workman’s compensation act on construction projects only

2.3 Types of engineering contract with advantages, disadvantages and their suitability- Lump sum contract, item rate contract, percentage rate contract, labour contract, demolition contract, target contract, negotiated contract, All in contract, Engineering Procurement Construction Contract (EPC),(IKS*-Informal Agreements and Oral Contracts)

2.4 FIDIC Contract – Introduction, different books used with colour code, Conditions and Provisions of red book for contractor and Employer

2.5 Classification of contractor on basis of financial limits, Requirement of documents for registration of contractor in Public Works Department (PWD).

2.6 Built Operate Transfer (BOT) Contract: Objectives, scope, advantages, Disadvantages, Provisions, conditions, etc with relevant examples

Unit – III Tender and Arbitration

3.1 Tender – Definition, necessity, Types -local, Global, open, Limited and negotiated tender

3.2 Terms used in tender documents: – Earnest Money Deposit (EMD), Security deposit (SD), Additional Performance Security Deposit, Validity period, right to reject one or all tenders, corrigendum to tender notice and its necessity.

3.3 Notice Inviting Tender (NIT) -Points to be included while drafting tender notice.

3.4 Tender documents – Index, tender notice, general instructions, special instructions, schedule A, Schedule B, schedule C.

3.5 Conditions of tender documents – contract conditions- time limit, time extension, penalty, defective material and workmanship, termination of contract, suspension of work, subletting of contract, extra items, price variation clause(escalation), defect liability Period, liquidated and un-liquidated Damages

3.6 Procedure of submitting filled tender Document (Two envelope system) by offline method, procedure of opening tender, comparative statement, scrutiny of tenders, award of contract, acceptance letter and work order

3.7 E -Tendering System – Online procedure of Submission of Tender in PWD, Online procedure of opening of Tender in PWD

3.8 Arbitration- Meaning, Qualification of an arbitrator, appointment, Causes and Settlement of disputes, Powers and duties of Arbitrator, Award of result. Important features of Arbitration and Conciliation Act – 1996

Unit – IV Measurements and Accounts

4.1 Various account forms and their uses – Measurement Books, E- Measurement book(E-MB), Completed Measurements, Nominal Muster Roll(NMR)- Issue and write of muster roll, Imprest Cash, Indent, Invoice, Bills, Vouchers, Hand receipt, Cash Book, Temporary Advance

4.2 Mode of Payment to the contractor and its necessity -Interim Payment, Advance Payment, Secured Advance, Petty advance,Mobilization advance, First And Final bill, Final bill, Running account bill, retention money, Reduce rate payment.(IKS*- Remuneration system : Builders and artisans were often paid in grain, land, royal patronage, or other goods rather than cash)

4.3 PWD Stores procedure

Unit – V Specifications

5.1 Specification- Definition Necessity and importance, points to be observed in framing specifications of an item.

5.2 Types of specification – Brief and Detailed, Standard and Manufacturers Specification

5.3 Provisions made in detailed specifications – Conditions relating to documents, general obligations of contractors, relating to Labor, execution of the work, measurements and payments, the default and non-completion of work, the settlement of disputes.

5.4 Preparing Detailed Specifications of items such as Excavation, PCC, Brick work, Internal and external plastering work, RCC work of Building construction, Canal lining, reinforcement, waterproofing of Irrigation Structures, WBM road, Bituminous road of transportation structures and Cast iron water pipes of Public health structures

5.5 Legal aspects of Specification.

MSBTE 316308 Design of RCC and Steels Structures Syllabus

Course Title : DESIGN OF RCC AND STEEL STRUCTURES

Course Code : 316308

Unit – I Fundamentals of RCC and Steel Structures

1.1 RCC; Definition, functions of reinforcement, materials required with their properties, use of IS:456-2000

1.2 Definition and types of limit states, partial safety factors for material strength, characteristic strength

1.3 Types of loads, use of IS:875-1987, characteristic load, design load

1.4 Steel structures: Steel as a structural material – Advantages, disadvantages. Functions and components of towers, roof trusses, water tanks, bridges, gantry and crane girders, columns, chimney, frames etc.

1.5 Types of sections used, Grades of steel and strength characteristics use of steel table IS 808-1989. (IKS*: Iron Beam used in the construction of Jagannath temple of Puri & Sun Temple of Konark in Orissa.)

Unit – II Analysis and Design of Beam

2.1 Limit State of collapse (flexure) : assumptions, IS specifications regarding spacing, cover, minimum reinforcement, effective span in beams

2.2 Stress-strain diagram for singly reinforced section, design parameters and constants, ultimate moment of resistance

2.3 Under- reinforced, over-reinforced and balanced sections

2.4 Analysis and design of singly reinforced section,: determination of design constants, ultimate moment of resistance, ultimate load carrying capacity, design of rectangular sections.

2.5 Introduction of Doubly reinforced section, conditions for providing doubly reinforced beams. Stress-strain diagram for Doubly reinforced section (No Numerical will be asked on doubly reinforced section)

2.6 Shear: Meaning of shear in beams and slabs. IS code specifications. Various forms of shear reinforcement .Use of bent up bars. Zones of minimum shear reinforcement. Numerical problems on design of shear reinforcement in beam.

2.7 Bond: Meaning of bond as per IS code provisions. Meaning and calculation of development length in tension and compression.

“Unit – III Design of Slabs

3.1 Slabs, support conditions, I.S. specifications regarding main steel, distribution steel, spacing and cover for reinforcement, effective span, minimum reinforcement

3.2 Limit state of serviceability of slabs for deflection criteria only

3.3 Design of one-way and cantilever slab including development length check only

3.4 Design of two-way slab with four edges discontinuous and provision of torsion reinforcement at corners (As per IS 456:2000, table no 26 case no 9 only). Check for deflection only.”

Unit – IV Design of axially loaded short Columns and footing

4.1 Limit state of collapse in compression, assumptions, effective length, slenderness ratio, short and long columns, and minimum eccentricity.

4.2 IS specifications for reinforcement in column

4.3 Load analysis for a column : load on an axially loaded column from beams at a different floor levels in a building

4.4 Design of axially loaded short column of square and rectangular section (IKS*:Construction of pillar in meenakshi amman temple and Sri Kalahasti Temple etc.)

4.5 Various RC footings : Isolated and Sloped footings, combined footings, piles

4.6 IS specifications for reinforcement in footing

4.7 Design of isolated square sloped footing: Flexural design with checks for bending moment, one-way shear, two-way shear and bond. (Problems on design of footing restricted to one check only in theory examination)

Unit – V Design of Steel Structures Connections

5.1 Steel Connection types, uses of bolts and joints: Black bolts and High strength bolts, modes of failure,

5.2 Specifications of bolt holes for bolted connections.

5.3 Strength of bolt in shear, tension, bearing and efficiency of joint.

5.4 Analysis and design of bolted joints for axially loaded plate, single and double angle members

5.5 Welded connections: Butt and Fillet welds, size of weld, throat thickness

5.6 Analysis and design of fillet welded joint for plate, single and double angle members subjected to axial load

5.7 Definition of Tension members and Compression members (No numerical will be asked in theory examination.)

MSBTE 316309 Maintenance and Repairs of Structures Syllabus

Course Title : MAINTENANCE AND REPAIRS OF STRUCTURES

Course Code : 316309

Unit – I Basics of Maintenance and Repairs

1.1 Maintenance and Repairs-Definition, Necessity, Objectives, Importance.

1.2 Types of maintenance based on interval- Routine, Periodic, Annual maintenance, Types of maintenance based on season- Pre-monsoon and Post monsoon maintenance, Types of repairing technique, Retrofitting, Re-strengthening, Rehabilitation, Restoration.

1.3 Factors influencing, advantages and limitations of maintenance and repairs of structures.

1.4 Approach of effective team management for maintenance and repairs. Details of maintenance manual of building. (IKS*: Restoration of Sun Temple in Konark Ajanta and Ellora caves, Taj Mahal.)

Unit – II Causes, Detection & Estimation of Damages

2.1 Causes of damages in structures- distress, earthquake, wind, flood, dampness, corrosion, fire, dilapidation, termites.

2.2 Systematic approach of damage detection, various aspects of visual observations for detection of damages.

2.3 Tests on damaged structures: rebound hammer, ultrasonic pulse velocity, rebar locator, cover gauge, crack detection microscope, Endoscope, chloride test, sulphate attack, pH measurement, half-cell potential meter.

2.4 Structural Audit- Objectives, Budget estimation, Steps involved Applicable Formats, Competent authorities, Rules and regulations.

Unit – III Materials for Maintenance and Repairs

3.1 Factors influencing the material selection for maintenance and repairs.

3.2 Anti-corrosion coating materials- cement slurry mortar, polymer modified cement slurry and epoxy zinc. Surface coating materials- bituminous cutbacks, chlorinated rubber coating, Vinyl coatings, epoxy coating and coal tar epoxy.

3.3 Mortar repair materials- cementitious mortar, polymer modified cementitious mortar and resin mortar. Grout materials- cement grout, cement sand grout, cement sand grout with additives, polymer modified cement grout and normal epoxies.

3.4 Adhesives materials- solvent free adhesives, epoxy adhesive, polyester adhesive, acrylic adhesive and water borne adhesives: polyvinyl acetate and vinyl acetate co-polymer Joint sealants materials- oleo resinous mastics, bitumen/rubber-based sealants and acrylic resin sealant.

3.5 Waterproofing roof materials- polyisobutylene (PIP) sheet, glass fiber reinforced plastics, bitumen and bituminous emulsion and latex cement coating. (IKS*: Use of natural material for repairs like mud, clay, lime, jaggery, cow dung, neem oil.)

Unit – IV Maintenance and Repair of Masonry Work

4.1 Causes of wall cracks- Bulging, shrinkage, bonding, shear and tension, differential settlement of foundation, thermal movement and vegetation. Locations of crack in masonry- junction of main & cross wall, junction of RCC column & wall, junction of slab & wall, cracks in masonry joints.

4.2 Stages of repairing: material removal and surface preparation, fixing suitable formwork, bonding/passivating coat and repair applications.

4.3 Repair techniques: grouting, patch spalling replacement or delaminating and epoxy bonded mortar.

4.4 Repairing methods for minor & medium cracks include epoxy injection, grooving & sealing, shotcrete, stitching, grouting and guniting.

4.5 Repairing methods for major cracks (width more than 5mm) include fixing mesh across cracks, dowel bars, RCC band and installing ferro-cement plates at corners and propping

Unit – V Maintenance and Repair of Concrete Work

5.1 Cracks in RCC elements-Locations, causes of RCC building elements.

5.2 Causes of dampness in roof slab, repair techniques of dampness- mud phuska with brick tile topping, lime concrete terracing, ferro-cement topping and brick coba.

5.3 Repair methods for cracks in RCC structures such as epoxy injection, grooving & sealing, stitching, rebaring, grouting, spalling replacement, jacketing, shotcrete and gunitting.

5.4 Repair of corroded RCC element: exposing and undercutting rebar, cleaning reinforcing steel, compensating reinforcement and protective coating.

5.5 Repair methods of honeycomb and larger voids in RCC components.

MSBTE 316310 Building Services K scheme Syllabus

Course Title : BUILDING SERVICES

Course Code : 316310

Unit – I Introduction to Building Services

1.1 Introduction to building services, Classification of buildings as per national building code, Necessity of building services, Functional requirements of building. Different types of building services (Enlist)

1.2 Building Management Services – Introduction to BMS (Building Management Services), Role and responsibilities of Engineer

1.3 Importance of plumbing, AHJ (Authority Having Jurisdiction) approval, Plumbing Terminology and fixtures: Terms used in plumbing Different types of plumbing fixtures, valves, shapes/ sizes, capacities, Suitable situation.Use of Water sensors for overhead tanks, Centralized RO system, drinking water cooler system

1.4 Hot water supply system. Introduction, Requirements, Types, Safety Features,Centralised hot water System. (*IKS-Red Fort-Hammam-hot or vapour baths, with heating arrangements)

1.5 Domestic pipe gas supply- introduction, component parts layout of domestic pipe Gas supply ,advantages and disadvantages

Unit – II Vertical communication

2.1 Vertical Communication in building- introduction, necessity and types- Lifts: Introduction, Necessity, Types Component parts, Safety measures, Calculation of space enclosure to accommodate lift services, design aspect

2.2 Escalators: Introduction, Necessity, Types, Uses, Component parts, Safety measures, Calculation of space enclosure to accommodate Escalators services, Design aspect

2.3 Ramp: Introduction, Necessity, Gradient calculation, Safety measures, Calculation of space enclosure to accommodate Ramp services, special features for physically handicapped and elderly. (*IKS-Use of climbers and Parambya for vertical communication)

Unit – III Fire Safety

3.1 Introduction to Fire Safety Definition and importance of fire safety Causes and consequences of fire incident

3.2 Fire prevention safety measures in buildings- Fire detectors ( smoke/ heat), manual pull stations, Fire alarm control panel, alarm system audible & visual alarms, Fire suppression systems (sprinklers,)

3.3 Fire Safety Equipment and Systems -Types of fire extinguishers ( foam, gas suppression ) and their applications, fire balls, Fire hoses, hydrants, and pumps, Emergency Response and Evacuation (*IKS-Use of Ghongadi for fire resistance)

3.4 Fire Safety Regulations and Standards-National Building Code of India (NBC) fire safety norms, Fire safety rules in residential, and Public buildings

3.5 Gr-Maharashtra Act No. III Of 2007 (Maharashtra Fire Prevention and Life Safety Measures Act, 2006.for the type of building A,B,C)

Unit – IV Natural resources conservation services

4.1 Components of a RWH system (Catchments, gutters, conduits, filters, Storage facility, Recharge structures etc.), Advantage, Application, potential and factors affecting, planning, designing, construction and maintenance of RWH for residential building

4.2 Concept of SWH (Solar water heating),component parts of various system of SWH (heat transfer, propulsion, passive direct system, active direct system, Do-it-yourself),Layout,design ,principles, specification, installation and maintenance

4.3 PM – Surya Ghar: Muft Bijli Yojana-details & benefits.

4.4 Grey water-introduction, Constitutes,Application,Management and, Distribution Pattern,

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Unit – V Advance building services

5.1 Introduction to Electrification: Lighting-Introduction, Necessity, Concept of lighting, types of lighting, factors influencing the brightness of room

5.2 Types of light control (Manual switch, Remote switch, Timer switch and Photo-electric cell switch), Door Bells- Concept, Locations, Types, Need, Applications, Lightning arrester-definition, Uses, Location.

5.3 Overview of HVAC system for building and centralized water cooling system. (@IKS-Jharokhas in HAWA MAHAL,Palace of winds)

5.4 Smart Building Technologies. Charging points for e-vehicles, Domestic surveillance system-component parts, uses IOT in building services, Smart gates, Kitchen Chimneys- Necessity/use, Size & types of chimneys ,selection of appropriate size

MSBTE 316311 Earthquake Resistant Building K scheme syllabus

Course Title : EARTHQUAKE RESISTANT BUILDING

Course Code : 316311

Unit – I Overview of Earthquake phenomenon

1.1 Definition and meaning of terms: Focus, Epicenter, Focal depth, foreshocks, aftershocks,

1.2 Seismic waves – Types and propagation , Body waves ,P waves and S waves ,Surface waves L and R waves, Propagation of Seismic Waves, pathways , reflection and refraction and shadow zones

1.3 Enlist the various seismic zones of India, classifying them into moderate to severe zones

1.4 Natural period, fundamental natural period, nodal natural period, response spectrum, seismic mass, seismic weight, structural response factor, time

1.5 Earthquake magnitude, intensity, and measurement (Richter scale, Mercalli scale) and risk assessment

Unit – II Causes and effects of earthquake

2.1 Causes and effects of earthquake

2.2 Formation of earth and its cores, Formation, types and movement of tectonic plates, procedure of formation of the tectonic plates for the given earthquake zone.

2.3 Elastic rebound theory, Types of earthquakes and Faults.

2.4 Primary and secondary effects: Ground shaking, liquefaction, landslides, tsunamis and fire

Unit – III Planning and design aspects

3.1 Principles of earthquake-resistant planning: Site Selection and Soil Assessment, Building Design and Structural Configuration

3.2 Site selection and soil considerations for buildings

3.3 Building configuration: Importance of shape, symmetry, and stiffness Load path and lateral load resistance in building

3.4 Role of damping systems, Types of dampers , tuned mass dampers , viscous dampers and friction dampers base isolation techniques using Elastomeric bearings, sliding plates, ball bearings and springs

Unit – IV Earthquakes affected masonry and concrete buildings

4.1 Behavior of masonry and reinforced concrete structures during earthquakes

4.2 Earthquake-resistant construction techniques for masonry buildings: Material Selection, Structural Configuration, Reinforcement Techniques, Construction Practices

4.3 Common failures in concrete and masonry buildings due to earthquakes: Sliding of roof support, falling of infill walls, crushing of column ends, and diagonal cracking of column beam joints, pulling out of reinforcement bars, foundation sinking and tilting

4.4 Retrofitting Methods for concrete and masonry Buildings: Grouting, Reinforced Concrete (RC) Jacketing, Steel Bracing, Fiber-Reinforced Polymer (FRP) wrapping, wall Strengthening with Wire mesh, Methods for strengthening and retrofitting existing structures like shear walls, infill walls and steel braces, Reinforced concrete (RC) Jacketing

Unit – V Codal provisions and management Strategies

5.1 Codal Provisions and Design Philosophy (IS 13920 2016, IS: 1893 (part I)-2002, IS:4326:2003)

5.2 Retrofitting Methods for Masonry Buildings, Grouting , Reinforced Concrete (RC) Jacketing, Steel Bracing, Fiber-Reinforced Polymer (FRP) Wrapping ,Wall Strengthening with Wire Mesh ,Base Isolation

5.3 Damage assessment and Structural safety evaluation- Immediate response and rescue Operations. Repair, rehabilitation, and retrofitting techniques

5.4 Disaster management policies, Objectives of Disaster Management Policies, Key Components of Disaster Management Policies, United States: Stafford Act (1988) India: Disaster Management Act (2005) Japan: Basic act on disaster management (1961), European Union Civil protection Mechanism (UCPM) ,Education and Training ,Capacity Building, First Aid and Basic Life Support Training , Search and Rescue Training , Fire Safety Training, Mock Drills and Simulation Exercises •Early Warning Systems, Community-Based Disaster Risk Reduction (CBDRR)

316312 Solid Waste Management K scheme Syllabus

Course Title : SOLID WASTE MANAGEMENT

Course Code : 316312

Unit – I Introduction to Solid Waste Management

1.1 Overview of Solid Waste- Definition, types and sources of– Domestic Waste, Commercial waste, Industrial waste, Market waste, Agricultural waste, Biomedical waste, E-waste, Institutional waste.

1.2 Characteristics of Solid Waste: Physical, Chemical, and Biological properties, Classification of solid waste- Hazardous waste and Non-hazardous waste.

1.3 Impact of Solid Waste on Environment and Human health.

1.4 Solid waste management hierarchy: Prevent, Reduce, Reuse, Recycle, Recover and Dispose

(IKS*- Crafts, Tools made of animal bones, shells and plant materials)

1.5 Organization pattern of solid waste management system, and Steps involved in the development of a Solid Waste Management System

Unit – II Aspects of Solid Waste Management

2.1 Waste generation, Factors Affecting Waste Generation: Population growth, urbanization, lifestyle, economic development etc.

2.2 Storage practices of solid waste generated, Tools and Equipment-Litter Bin, Broom, Shovels, Handcarts, Mechanical Road sweepers, Community bin – like movable and stationary bin.

2.3 Waste Collection Systems:

a) Manual: Curb system, Alley, Setout and setback system

b) Automated Collection Systems: Techniques, challenges, and innovations.

2.4 Transportation of municipal waste- Importance of Efficient Transportation, Transportation vehicles- Trucks, dumpsters, and other specialized vehicles.

2.5 Transfer station- meaning, necessity, location.

2.6 Segregation of Solid waste, its importance, reducing waste, improving recycling efficiency, Methods of Segregation: Manual and automated sorting.

2.7 Recent Innovations in segregation: Robotic sorting systems, AI in waste management-optical sorting, and smart bins.

2.8 Economic and financial aspects of waste management.

Unit – III Treatment and Disposal of Solid Waste

3.1 Solid waste disposal methods and its importance-Composting, Landfill, Incineration and Energy Generation

3.2 Concept, Principles, and Factors affecting the composting

3.3 Methods of composting: Manual Composting – Bangalore method, Indore Method, Vermicomposting

(IKS*-Bio-fertilizers, organic farming)

Mechanical Composting – Dano Process

3.4 Land filling techniques, methods and Factors to be considered for site selection of landfills.

3.5 Land filling methods :Area method, Trench method, Ramp method, Advantages and disadvantages of landfill method

3.6 Recent Developments: Bioreactor Landfills, Methane capture, Leachate treatment

3.7 Incineration of solid waste: Introduction, Types of incinerators – Flash, Multiple chamber Incinerators, Advantages and disadvantages of incineration process

3.8 Pyrolysis of waste – Purpose, process and Applications

Unit – IV Waste Management Systems

4.1 Biomedical Waste Management-Definition, Sources and generation of Biomedical waste, Classification and Management technologies for Biomedical waste.

4.2 Industrial Waste Management- Definition, Sources and generation of Industrial Waste, classification and Management technologies for Industrial Waste.

4.3 E- Waste Management – Definition, Sources and generation of E- Waste Management, Classification and Management technologies for E- Waste Management.

4.4 Energy Recovery Methods: Heat recovery Units, Power generation, Biofuels, Refuse-Derived Fuel (RDF)

4.5 Recent Developments: Modern WTE plants, small-scale decentralized systems

Unit – V Legal Aspects of Solid Waste Management

5.1 Role of agencies in management of solid waste from various sources :

Central Pollution Control Board

Maharashtra Pollution Control Board

Municipal Corporations, Nagar Panchyat, Gram Panchayat etc

5.2 Municipal Solid Waste Management Rules, 2016

5.3 Biomedical Waste Management Rules, 2016

5.4 E- Waste Management Rules, 2016

5.5 Hazardous and other wastes Management Rules, 2016

5.6 Plastic Waste Management Rules, 2016

5.7 Construction and demolition Waste Management Rules, 2016

5.8 Extended Producer Responsibility (EPR) -The role of extended producer responsibility (EPR) in promoting, recycling, concepts, benefits of EPR

5.9 Role of NGO’s and community participation in Solid waste management

Conclusion

So friends in this post we had seen the complete MSPT Diploma in Civil Engineering 6th semester syllabus along with the subtopic present in each unit of each subject.

If you want to get a weightage of each unit and also some micro projects ideas learning materials material then in upcoming post we are trying to provide you all the materials as soon as possible.

Also my recommendation is, Focus on 6th semester because it will help you to get a good College in engineering.

Because these marks decides your entire future. Because if you are going to best engineering college then you should have good percentage in 5th and 6th semester.

Make a proper Notes take revision and give proper to analyze your performance and improve your performance according to your result don’t be over confident because it will affect on your entire hard work.

So thank you very much guys for reading this post I hope you get a lot of knowledge from this post and also join our communities to get an instant update related to MSBTE and educational updates.