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- 1. Background information
- 10 + 1 Steps to Magic Moments
- 10. Maintenance
- 10A.P1
- 10A.P2
- 10B.P3
- 10B.P4
- 11. Life in Service - Product Life
- 12. Safety
- 13. Testing
- 14. Packaging
- 15. Product costs
- 16. Time scales
- 1st Law of Indices
- 1st Law of Logarithms
- 2. Scope of the specification
- 27A.P1
- 27A.P2
- 27B.P3
- 27B.P4
- 27C.M4
- 27C.M5
- 27C.P5
- 27C.P6
- 27C.P7
- 2nd Law of Indices
- 2nd Law of Logarithms
- 3. Relevant Authorities to be Consulted
- 3rd Law of Indices
- 3rd Law of Logarithms
- 4. Performance
- 4A.P1
- 4A.P2
- 4B.P3
- 4B.P4
- 4C.M3
- 4C.M4
- 4C.P5
- 4C.P6
- 4th Law of Indices
- 4th Law of Logarithms
- 5. Ergonomics
- 5th Law of Indices
- 5th Law of Logarithms
- 6. Aesthetics, Appearance and Finish
- 6th Law of Indices
- 6th Law of Logarithms
- 7. Materials
- 8. Quantity Scale of Production
- 9 Steps to Shear Force and Bending Moment Diagrams
- 9. Manufacture
- A Site Map
- A Worked Example for Activity Based Costing
- About
- Absolute Pressure
- Absolute Zero
- Acceleration
- Acceleration due to Gravity
- Acceleration, Gravity and Lifts Worked Examples
- Acetylene
- Acordian
- Activity Based Costing
- AddNewNotes
- AddNewNotes: Notes
- Adiabatic Change
- Advanced Design and Technology
- Alpha
- An introduction to Activity Based Costing
- Analysis of a Simply Supported Beam Example Question
- Analysis of a Simply Supported Beam Solution (Point Load Part 1)
- Analysis of a Simply Supported Beam Solution (Point Load Part 2)
- Analysis of a Simply Supported Beam Solution (Point Load Part 3)
- Analysis of a Simply Supported Beam Solution (Point Load Part 4)
- Analysis of a Simply Supported Beam Solution (UDL Part 1)
- Analysis of a Simply Supported Beam Solution (UDL Part 2)
- Analysis of a Simply Supported Beam Solution (UDL Part 3)
- Analysis of a Simply Supported Beam Solution (UDL Part 4)
- Analysis of a Simply Supported Beam Worked Example
- Analytical Resolution of Forces
- Analytical Resolution of Forces Step 1 & 2
- Analytical Resolution of Forces Step 3 & 4
- Analytical Resultant of Forces
- Analytically
- Angle of Incidence
- Angles
- Angular 'SUVAT'
- Angular 'SUVAT' Equations
- Angular Acceleration
- Angular Displacement
- Angular Frequency
- Angular Momentum
- Angular Motion
- Angular Motion Cheat Sheet
- Angular Velocity
- Angular Velocity from Revs/s
- Archimedes' Principle
- Area
- Area of a Circle Equation
- Arithmetic and Geometric Progression
- Arithmetic Progression
- Arithmetic Progression Cheat Sheet
- Assignment Words Explained
- ATEX 100A (95) and ATEX 137
- ATEX Directive 94/9/EC (ATEX 95)
- Atmospheric Pressure
- Atoms
- Average Pressure on a Submerged Surface
- Avogadro's Number
- Axial Stress in a Parallel Compound Bar Solution (2nd Method (Part 1))
- Axial Stress Due to Compression and Temperature Change Worked Example
- Axial Stress Example Question
- Axial Stress in a Parallel Compound Bar Question
- Axial Stress in a Parallel Compound Bar Solution (Part 1)
- Axial Stress in a Parallel Compound Bar Solution (Part 2)
- Axial Stress in a Parallel Compound Bar Solution (Part 3)
- Axial Stress Solution (Part 1)
- Axial Stress Solution (Part 2)
- Axial Stress Solution (Part 3)
- Bar
- Base S.I. Units
- BASIC Program for Calculating Force on Joints in Simple Frames
- Bending Equation
- Bernoulli's Equation
- Beta
- Biological Risk
- Boiler
- Boiler Efficiency Worked Example
- Boiling
- Borderless table
- Bottle Disposal and Recycling Design Brief
- bottom
- Bow's Notation
- Boy's Calorimeter
- Boyle's Law
- Boyle's Law Worked Example
- Brainstorming Rules
- Breadth
- British Standards
- BTEC Engineering Book
- BTEC Unit Specs
- Buoyancy Force
- Butt Joint
- C & S Basic Definitions
- c11
- Calculate Force from a Pressure Worked Example
- Calculate Pressure and Force From Density and Height Worked Example
- Calculating Products of Combustion: An introduction
- Calculating Products of Combustion: Example Steps
- Calculating the overturning Force on a Dam Wall Worked Example
- Calorific Value
- Calorimeters
- Capacitance
- Capacitive Reactance
- Capacitors in Parallel
- Capacitors in Series
- Carbon
- CDM: Construction (Design and Management) Regulations 2007
- Celsius or Centigrade
- Centre of Pressure
- Centripetal & Centrifugal Force
- Centripetal Acceleration
- Centripetal Acceleration and Centripetal Force Worked Example
- Centripetal Acceleration for a Complex Rotating System Worked Example
- Change In
- Characteristic Gas Law
- Characteristic Gas Law (Density Version)
- Characteristic Gas Law (Specific Volume Version)
- Characteristic Gas Law Worked Example
- Charge
- Charles’s Law
- Charles’s Law Worked Example
- Chi
- Chord of a Wing
- Circumference
- Class notes 18/09/23
- Closed Thermodynamic System Worked Example
- Code Snippets
- Coefficient of Friction
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- Coefficient of Linear Expansion
- Coefficient of Pressure
- Coil Size
- Columns
- Combustion
- Combustion and Stoichiometry
- Combustion Equations for Solid and Liquid Fuels
- Common Polytropic Processes
- Comparison of Existing Designs
- Composition of Air
- Compound Bar Example Question
- Compound Bar Example Question 1
- Compound Bar Joined End to End
- Compound Bar Solution (Part 1)
- Compound Bar Solution (Part 2)
- Compound Bar Solution (Part 3)
- Compound Bar Solution (Part 4)
- Compound Bar Solution Method 2 (Part 1)
- Compound Bars
- Compound Stress in a Series Bar Under Axial Load Worked Example
- Compression Force
- Compression Ratio
- Concentrated Load
- Concurrent Forces
- Conservation of Energy
- Conservation of Momentum
- Constants
- Contents organised for BTEC lvl 3 Units
- Continuity of Mass Flow
- Continuity of Volumetric Flow
- Contraflexure
- Convergent Design
- Coplanar Forces
- Corrected Energy
- Corrosive Material
- COSH: Control of Substances Hazardous to Health Regulations ..1999
- Cosine Rule
- Coulomb's Constant
- Coulomb's Law
- Covalent Bond
- CPA
- CPA/ PERT (Mind tools)
- Cuppa
- Current
- D’Alembert’s Principle
- D'Alemberts's Worked Example Part 1
- D'Alemberts's Worked Example Part 2
- D'Alemberts's Worked Example Part 3
- d10
- Danger: Electricity
- Definition
- Definitions
- Deflection
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- Depth
- Derivation of Force on a Submerged Surface
- Derivation of Newton's Second Law
- Derivation of the Work Equation for a Polytropic Process
- Derivation of the Work Equation for an Isothermal Process
- Design Process
- Design Process Diagram
- Determine the Dryness Fraction Worked Example
- Determine the Specific Heat Capacities Worked Example
- Diagrams and Equations for Loading of Simple Beams
- Diameter
- Dielectric Constant or Relative Permittivity
- Dimensional Analysis
- Dimensional Change
- Direct Stress
- Directive 1999/92/EC (ATEX 137)
- Directives Links
- Displacement
- Displacement- Time Graphs
- Displaystyle
- Distance
- Do Not Extinguish Fire with Water
- Do Not Touch
- Drop
- Dry Products of Combustion
- Dry Steam
- Dryness Fraction
- Dynamic Strength
- Dynamics Examples
- Dynamics/ Kinematics
- e9
- Ear Protection Must be Worn
- Edit Tranclusion on Hover
- Effective Mass
- Efficiency
- Effort
- Electric Constant
- Electric Field Strength
- Electric Field Strength: Uniform Electric Fields
- Electric Flux Density
- Electric Potential
- Electrical Power (Current, Resistance)
- Electrical Power (Current, Voltage)
- Electrical Power (Voltage, Resistance)
- Electrical Resistivity
- ElectroMagnetic Compatibility (EMC) -2004/108/EC
- Electromotive Force (EMF)
- Electronics
- Electrons
- Elements
- Embed code
- Embedded Onshape via Cadasio
- Emergency Escape or First-Aid Signs
- Emergency Telephone for First Aid or Escape
- Encastré Beam - Uniformly Distributed Load Full Span
- Encastré Beam - Uniformly Distributed Load Full Span Diagram
- Encastré Beam - Uniformly Distributed Load Full Span Equations
- Enegry Stored In a Capacitor
- Energy
- Energy From Boiler to Superheater Worked Example
- Energy From Boys’ Calorimeter Worked Example
- Energy From Schole's Bomb Calorimeter Worked Example
- Energy in Dry Steam
- Energy in Partially Dry Steam
- Energy Stored in an Inductor
- Engineering Directives
- Engineering Example
- Engineering Materials
- Engineers Data Book
- Enthalpy
- Enthalpy in Dry Steam
- Enthalpy in Partially Dry Steam
- Entropy
- ENTROPY IS NOT "DISORDER"
- Epsilon
- Equation Field
- Equation Template
- Equations
- Equations for Four Bar Crank Slider Mechanism
- Equilibrant
- Equilibrium
- Equivalent Mass
- Ergonomics & Human Factors
- Ergonomics and Anthropometrics Links
- Essential Content A
- Essential Content B
- Essential Content C
- Essential Content D
- Essential Content E
- Eta
- Euler's number - e
- Evaluation Tips
- Ex051/styles
- Example Specification
- Examples of Scalar Quantities
- Examples of Vector Quantities
- Excel Like Table
- Excess Air
- Exit Sign 1
- Exit Sign 2
- Exit Sign 3
- Exit Sign 4
- Expansion Ratio
- Explosive Material
- Explosive Strength
- Exponential Growth & Decay
- Extension
- Extensive Property
- Eye Protection Must be Worn
- Eyewash
- f7
- Face Protection Must be Worn
- Fahrenheit
- Faraday's law of Induction
- Final Angular Velocity
- Final Velocity
- Final Volume
- Finding the Forces in a Frame Analytically Worked Example
- Finding the Mass of a Submersible Vehicle
- Finding the Mass of a Submersible Vehicle Worked Example
- First Aid
- First Angular 'SUVAT' Equation
- First Law of Thermodynamics
- First Moment of Area
- First SUVAT Equation
- Flammable Material or High temperature
- Flow Energy
- Flow System Rules
- Flow Systems
- Fluid Mechanics
- Fluid Mechanics Questions
- Fluid Mechanics Worked Examples
- Fluid Velocity Through a Venturi Meter Worked Example
- Force
- Force Diagram
- Force for Limiting Friction (Horizontal Surface)
- Force on a Submerged Surface
- Force Question 1
- Form Factor of a Waveform
- FormulaResult Button
- FOS for Direct and Shear Stress Worked Example
- Fourier's Law
- Fourth Angular 'SUVAT' Equation
- Fourth SUVAT Equation
- Framed Structure
- Free Stream
- Free Surface
- Frequency
- Fuel
- Fulcrum
- Full Filter
- Funicular Diagram
- Funicular Polygon
- g6
- Gamma
- Gas
- Gas /Air Lubrication-Bearings
- Gas Constant
- Gas Fuel
- Gas Laws
- Gas/ Air Lubrication Bearing Links
- Gasses
- Gauge Pressure
- Gay Lussac Worked Example
- Gay Lussac's Law
- Gears Encoded
- Gears Loading
- General Danger
- General Gas Law
- General Gas Law Worked Example
- General Mandatory Sign
- General Warning Signs
- Generating Ideas, Synthesis Tips
- Geometric Progression
- Geometric Progression Cheat Sheet
- Graph with Slider
- Graph with Slider 1
- Graphical Resolution of Forces
- Graphical Resultant of Forces
- Graphically
- Graphs
- Gravitational or Potential Energy
- Gravity
- Greek Letters
- Gripping Strength
- Gyroscopes
- Gyroscopic Couple Worked Example
- Gyroscopic Precession
- H11
- h6
- H7
- H7k6
- H7n6
- H7p6
- H7s6
- H8
- h9
- H9
- Hardness Links
- Health and Safety
- Heat Energy
- Heat Energy (Constant Pressure)
- Heat Energy (Constant Volume)
- Heat Energy Released by Condensate
- Heat Energy Transfer
- Heat Energy Transfer Through a Pipe
- Heat Loss in a Lagged Pipe Example Question
- Heat Loss in a Lagged Pipe Solution
- Heat Loss in a Pipe Example Question
- Heat Loss in a Pipe Solution
- Heat Loss in a Pipe Worked Example
- Heat Loss Through a Compound Wall Question
- Heat Loss Through a Compound Wall Solution
- Heat Loss Through a Compound Wall Worked Example
- Height
- HelpButton
- Higher Calorific Value (H.C.V.)
- Higher Calorific Value (H.C.V.) (Bomb)
- Higher Calorific Value (H.C.V.) (Boy's)
- Hitchhikers Quote
- HNC
- HNC Unit 08 P5 Example Question
- HNC Unit 08 P5 Solution Step 1
- HNC Unit 08 P5 Solution Step 2
- HNC Unit 08 P5 Solution Step 3
- holediag
- Hooke's Law
- Horizontal Component
- How can Entropy be Reversed
- Human Strength / Endurance
- Hydrogen
- Hydrostatic Pressure
- Hydrostatic Thrust on a Submerged Surface
- Idea Generation
- Ideal Gas
- Image Linking
- image.png
- image1.png
- image2.png
- image3.png
- image4.png
- Imaginary Numbers
- Impedance
- Imperfect Frame
- Incomplete Combustion
- Incremental
- Inductance
- Inductance of a Coil
- Induction Intro lvl 1
- Induction Intro lvl 2
- Inductive Reactance
- Industrial Vehicles
- Inertial Constant
- Inertial Force
- Initial Angular Velocity
- Initial Velocity
- Initial Volume
- Inline Example
- Inline Examples
- Innovation
- Installed Fonts
- Intensive Property
- Internal Energy
- Internal Energy (Fixed Pressure)
- Internal Energy (Fixed Volume)
- Internal Energy, Constant Pressure with the Heat Energy Equation
- Internal Energy, Constant Volume with the Heat Energy Equation
- Investigation and Design Briefs
- Iota
- Isentropic
- ISO 9000:2015 Principles of Quality Management
- ISO9000 vs TQM
- ISO9000:2015: Disadvantages
- Isobaric
- Isochoric
- Isolated System
- Isometric
- Isothermal
- Kappa
- Katex Align
- Katex Div Class
- KaTeX Functions
- Kelvin
- Kinematics/ Dynamics
- Kinetic Energy
- Kirchhoff's Current Law
- Kirchhoff's Voltage Law
- Lambda
- Lap Joint
- Laser Beam
- Latent Energy
- Latent Enthalpy
- Latent Heat
- Latent Volume
- Laws of Hydrostatics
- Laws of Indices
- Laws of Logarithms
- Legislation and Standards
- Length
- Lengths, Areas and Volumes Cheat Sheet
- Lift
- Lift to Drag Ratio
- Limiting Friction on an Inclined Plane
- Linear Motion
- Linking katex
- Links to Maths Help
- Links to plugins
- Liquid Fuel
- List from tags
- LOLER. The Lifting Operations and Lifting Equipment Regulations 1998
- Low Temperature
- Lower Calorific Value (L.C.V.)
- Machine
- Machinery Directive (2006/42/EC)
- Magic Moments Step 1
- Magic Moments Step 2
- Magic Moments Step 3
- Magic Moments Step 4
- Magic Moments Step 5
- Magic Moments Steps 4-7
- Magic Moments Steps 6 & 7
- Magic Moments Steps 8-10
- Magic Moments Worked Example
- Magnetic Field Strength
- Magnetic Flux
- Magnetic Flux Density
- Magnetic Permeability of Free Space
- Magnetic Reluctance
- Magnetomotive Force
- Magnitude
- Mandatory Signs
- Manufacture- Planning and Making Tips
- Market Pull
- Market Research
- Mass
- Mass of Condensed Water
- Mass of Fuel
- Mass of Water
- Mat Data Table 1
- Materials Data and links
- Materials Data WIP
- math force data
- MathCell
- Maths
- Mechanical Principles Resources
- Members
- Micro
- Modulus of Rigidity
- MOI Background Reading
- MOI1
- MOI2
- MOI3
- Molar Mass
- Molecular Weight
- Molecules
- Moles
- Moment of Inertia
- Moments Explained
- Moments Game
- Moments or Bending Moments
- Momentum
- Momentum Worked Example
- More Design Briefs
- Morphological Analysis
- Motional EMF
- Mu
- Neutral Axis (Distance From)
- New BTEC Unit 1 Spec
- New BTEC Unit 10 Spec
- New BTEC Unit 27 Spec
- New BTEC Unit 3 Spec
- New BTEC Unit 4 Spec
- New Tiddler
- New Tiddler 1
- New Tiddler 16
- New Tiddler 17
- New Tiddler 3
- New Tiddler 4
- New Tiddler 5
- new_notes_icon.svg
- Newton's First Law
- Newton's Second Law
- Newton's Third Law
- Newtons Laws of Motion
- No Access for Industrial Vehicles
- No Access for Pedestrians
- No Access for Unauthorised Persons
- No Smoking
- Non Concurrent Forces
- Non Concurrent Forces Worked Example
- Non Value Added
- Non-Flow Energy Equation
- Non-Flow System Rules
- Non-Flow Systems
- Non-Ionising Radiation
- Normal
- Normal Force
- Not Drinkable Water
- Notes style
- Nu
- Number of Coil Turns
- Number of Moles
- Number of Terms
- Numbered Table of Contents
- Obstacles
- Ohm's Law
- Ohm's Law for AC
- Omega
- Omicron
- Open and Closed Systems
- Open Thermodynamic System Worked Example
- Other Sources
- Outlet Temperature for One Fluid and Pipe Lengths in a Parallel/ Contra Flow Heat Exchanger Worked Example
- Outlet Temperature for One Fluid in a Parallel/ Contra Flow Heat Exchanger Example Question
- Outlet Temperature for One Fluid in a Parallel/ Contra Flow Heat Exchanger Solution
- Overhead Load
- Oxidant Material
- P-V Graph Diagram
- Page Break
- Parallel
- Pedestrians Must Use This Route
- PEEK Data Sheet
- Perfect Frame
- Performance Issues
- Periodic Table
- Permeability
- Permeability and Magnetic Fields
- Permittivity
- Perpendicular
- Perpetual Motion Revealed
- Phi
- Pi
- Pi txt
- Picture Float
- Pin Joints
- Pint
- Pipe Lengths for a given Temperature Difference in a Parallel/ Contra Flow Heat Exchanger Question
- Pipe Lengths for a given Temperature Difference in a Parallel/ Contra Flow Heat Exchanger Solution
- Pivot
- Point Load
- Poisson's Ratio
- Polytropic Equation
- Polytropic Graph One
- Polytropic Graph Two
- Polytropic Index
- Polytropic Index Worked Example
- Polytropic Process Worked Example
- Portable Drawing Equipment Design Brief
- Post it note
- Post it note: Notes
- Potential Difference
- Power
- Prefixes
- Presentation for Graphically Solving a Simple Frame
- Presentation for Graphically Solving a Simple Frame (New and Improved presentation)
- Press on and all Shall be Revealed
- Pressing Pedal
- Pressure
- Pressure Difference from Head on a Manometer Worked Example
- Pressure Equipment Directive (97/23/EC)
- Primary Forces
- Products of Combustion
- Products of Combustion Worked Example
- Prohibition Signs
- Project Tips
- Properties of Gasses
- Properties of Gasses: Thermodynamic
- Properties of Liquids
- Properties of Metals
- Properties of Solids
- ps tricks
- Psi
- Pulling Horizontal Bar
- Pushing Horizontal Bar
- PUWER..The Provision and Use of Work Equipment Regulations (S.I. No 2932)
- Q1 L1 Intro
- Q1 L2 Intro
- Q10 L1 Intro
- Q2 L1 Intro
- Q2 L2 Intro
- Q3 L1 Intro
- Q3 L2 Intro
- Q4 L1 Intro
- Q4 L2 Intro
- Q5 L1 Intro
- Q5 L2 Intro
- Q6 L1 Intro
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- Q7 L1 Intro
- Q7 L2 Intro
- Q8 L1 Intro
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- Q9 L1 Intro
- qa
- qb
- qc
- Quadratic Graph
- Quadratic Graph 1
- Quality
- Quality: Then and Now
- Question1
- Questions
- Quick Reference
- Radioactive Material
- Radius
- Radius of Curvature
- Radius of Gyration
- Radius of Gyration for an Irregular Shape
- RangeD2
- RangeD3
- RangeDemo
- Rate of Change
- Rate of Growth
- Reactance
- Reactants
- Reaction Force
- Redundant Members
- Regulations
- reimagin-tags.bundle
- Relationship Between u & h at Low Pressure and Temperature
- Relative Permeability
- Resistance
- Resistance: Temperature Coefficient
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- Unit 27 C3: Shear Loading
- Unit 27 C4: Design Considerations
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- Unit 27:Static Mechanical Principles in Practice
- Unit 3 A1
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- Unit 5 D1 Step 1
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- Where do the Equations for the Internal Stress in a Parallel Compound Bar Come From?
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- Where does the K.E.equation come from?
- Where Does the Linear Compound Bar Equation Come From?
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