Engineers Text Book — An Hyperlinked Text Book for Engineers

Engineers Text Book

An Hyperlinked Text Book for Engineers

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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
Coefficient of Lift
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
Delta
Demand
Density
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
Q6 L2 Intro
Q7 L1 Intro
Q7 L2 Intro
Q8 L1 Intro
Q8 L2 Intro
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
Resistors in Parallel
Resistors in Series
Resolve
Respiratory Equipment Must be Worn
Resultant
Retarding Force on a Pile Drive Hammer Using Conservation of Energy Steps
Retarding Force on a Pile Drive Hammer Using Conservation of Energy Worked Example
Retarding Force on a Pile Drive Hammer Using D’Alembert’s Principle Steps
Retarding Force on a Pile Drive Hammer Using D’Alembert’s Principle Worked Example
Reverse Polish
Revolutions per Second
Rho
Richlink
Right Hand Rule
RM
Rockwell Hardness Test
Root Mean Squared Voltage
Rotational Kinetic Energy
Rotational Power
RoyMech
RoyMech Materials Data
rpn – Basic Math in Reverse Polish Notation
RTFQ
S.F & B.M Worked Example Presentation
Safety Boots Must be Worn
Safety Factor
Safety Gloves Must be Worn
Safety Harness Must be Worn
Safety Helmet Must be Worn
Safety Overalls Must be Worn
Safety Shower
Safety Signs
Sample of Steam Tables for Saturated Water and Steam
Sample of Steam Tables for Superheated Steam
Sample of Superheat Table for Use With Throttles
Sample of Superheated Steam Table for Use With Throttles
Saturated Steam
Saturated Water
Saturation Temperature
Scalar
Schole's Bomb Calorimeter
Scientific Notation
Scrollable tables
Second Angular 'SUVAT' Equation
Second Law of Thermodynamics
Second Moment of Area
Second SUVAT Equation
Select a tag
selectedTags
Sensible Energy
Sensible Enthalpy
Sensible Volume
Sequence
Sequences and Series
Series
SF & BM Data
SF and BM data
SF Definitions
SH Capacities and the Gas Constant
shaftdiag
Shear Force
Shear Force and Bending Moment Diagrams
Shear Strain
Shear Stress
Shear Stress in a Lap and Butt Joint Worked Example
Shear Stress Worked Example
Shiraz Tutorial (Embed)
showpreview Window Button
Shows Folded Tiddlers
Sigma
Simple Beam - Load Increasing Uniformly to One End
Simple Beam - Load Increasing Uniformly to One End Diagram
Simple Beam - Load Increasing Uniformly to One End Equations
Simple Beam - Point Load at Centre
Simple Beam - Point Load in Center Diagram
Simple Beam - Point Load in Center Equation
Simple Beam - UDL at One End
Simple Beam - UDL at One End Diagram
Simple Beam - UDL at One End Equations
Simple Beam - Uniformly Distributed Load at Each End
Simple Beam - Uniformly Distributed Load at Each End Diagram
Simple Beam - Uniformly Distributed Load at Each End Equations
Simple Beam - Uniformly Distributed Load Diagram
Simple Beam - Uniformly Distributed Load Equations
Simple Beam - Uniformly Distributed Load Full Span
Simple Beam - Uniformly Load Partially Distributed
Simple Beam - Uniformly Load Partially Distributed Diagram
Simple Beam - Uniformly Load Partially Distributed Equations
Simple Frame 60-30 Triangle Worked Example
Simple Frame Calculator
Simple Frame Joints to Members Equation
Simple Frame Resources
Simple Frame Solved Analytically Worked Example
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Simple Framework
Simple Harmonic Motion
Simple Harmonic Motion Acceleration
Simple Harmonic Motion Combined Graph
Simple Harmonic Motion Displacement
Simple Harmonic Motion Velocity
Simply Supported Beam
Simpsons Rule
Sine Rule
Six Pneumatic Questions for Students to Answer
Smoking and Naked Flames Forbidden
Solid Fuel
Space Diagram
Span of a Wing
Specific
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Specific Gravity
Specific Heat Capacity
Specific Heat Capacity: Constant Pressure
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Specific Volume
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Spreadsheet Test
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Steps to Analytically Resolving Forces (Trig)
Steps to Finding the Forces in a Simple Frame Analytically
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Steps to Solving Problems
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Stoichiometric Ratio
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Strain
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Stress
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Stress and Strain
Stress and Strain Introduction
Stress in a Parallel Compound Bar due to Axial Load Worked Example
Stress in a Parallel Compound Bar due to Thermal Expansion Worked Example
Stress in a Parallel Compound Bar Question Example 1 Solution (Part 2)
Stress in a Parallel Compound Bar Question Example 1 Solution (Part 2) Maths Help
Stress Strain Graph
Stretcher
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SUVAT
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Table 1.1 Fundamental characteristics of some current barrow designs
Table of Calorific Values
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Table of Effects for Polytropic Index
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Tag Cloud
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The four steps for the Stoichiometric Ratio of Combustion
The Low Voltage Directive (LVD)
The Noise at Work Regulations 2005
The Principles and Processes of Value Management
The Quadratic Formula
The Secret of Perpetual Motion
Thermal Conductivity
Thermal Energy Through Compound Wall
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Thermal Resistance Through a Pipe
Thermal Stress in a Parallel Compound Bar Question
Thermal Stress in a Parallel Compound Bar Solution (Part 1)
Thermal Stress in a Parallel Compound Bar Solution (Part 2)
Thermo Definitions
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Turning Circular Knob
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U3 Essential Content A
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U3 Essential Content C
U3 Essential Content D
Ultimate Tensile Strength
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Uniformly Distributed Load
Unit 1 A1
Unit 1 A2
Unit 1 B1
Unit 1 B2
Unit 1 C1
Unit 1 D1
Unit 1 E1
Unit 1 E2
Unit 1 E3
Unit 1 Engineering Principles
Unit 1 Learning Outcomes
Unit 1 Section A
Unit 1 Section B
Unit 1 Section C
Unit 1 Section D
Unit 10 A
Unit 10 A (All)
Unit 10 A Distinction
Unit 10 A Merit
Unit 10 A Pass
Unit 10 A1: 3D Parametric Modelling
Unit 10 A2: Develop 3D Components
Unit 10 A3: Develop a 3D Model
Unit 10 A4: Output of Drawings from a Model
Unit 10 B
Unit 10 B (All)
Unit 10 B Distinction
Unit 10 B Merit
Unit 10 B Pass
Unit 10 C
Unit 10 C (All)
Unit 10 C Distinction
Unit 10 C Merit
Unit 10 C Pass
Unit 10 EIAD
Unit 10: B1 2D Drawing Commands
Unit 10: B2 Development of 2D Engineering Drawings
Unit 10: B3 Output of 2D Drawings
Unit 10: C1 3D Modelling Commands
Unit 10: C2 Develop 3D Components
Unit 10: C3 Development of a 3D Model
Unit 10: C4 Output of Product Drawings
Unit 11 M1 Example Question
Unit 11 M1 Solution
Unit 11 M1 Solution:Joint 1
Unit 11 M1 Solution:Joint 2
Unit 11 M1 Solution:Joint 3
Unit 11 M1 Solution:Reaction Forces
Unit 11 M1 Solution:The Details
Unit 11 M3 Example Question
Unit 11 M3 Solution (1)
Unit 11 M3 Solution (1) Step 1
Unit 11 M3 Solution (1) Step 1 Part 1
Unit 11 M3 Solution (1) Step 1 Part 2
Unit 11 M3 Solution (1) Step 2
Unit 11 M3 Solution (1) Step 3
Unit 11 M3 Solution (2)
Unit 11 M3 Solution (3)
Unit 11 M4 Example Question
Unit 11 M4 Solution
Unit 11 P1 Definitions
Unit 11 P1 Example Question
Unit 11 P3 Example Question
Unit 11 P3 Solution (a)
Unit 11 P3 Solution (b)
Unit 11 P3 Solution (b): Area and Diameter
Unit 11 P3 Solution (b): Area from Stress
Unit 11 P3 Solution (b): Working Stress
Unit 11 P5 Example Question
Unit 11 P5 Solution Part 1
Unit 11 P5 Solution Part 1 Step 1
Unit 11 P5 Solution Part 1 Step 2
Unit 11 P5 Solution Part 1 Step 3
Unit 11 P5 Solution Part 2
Unit 11 P5 Solution Part 3
Unit 11 P6 Example Question
Unit 11 P6 Solution a
Unit 11 P6 Solution b
Unit 11 P7 Example Question
Unit 11 P7 Example Solution Part 1
Unit 11 P7 Example Solution Part 2
Unit 14 D1 Example Question
Unit 14 D1 Steps
Unit 14 M1 Example Question
Unit 14 M1 Solution
Unit 14 M1 Solution: Characteristic Gas Law
Unit 14 M1 Solution: Polytropic Equation
Unit 14 M2 Example Question
Unit 14 M2 Solution: Step 1
Unit 14 M2 Solution: Step 2
Unit 14 M2 Solution: Step 3
Unit 14 M2 Solution: Step 4
Unit 14 M2 Steps
Unit 14 M3 Worked Example
Unit 14 M4 Example Question and Solution
Unit 14 P1 Example Question
Unit 14 P1 Solution Q1
Unit 14 P1 Solution Q2
Unit 14 P1 Solution Q3
Unit 14 P2 Example Question
Unit 14 P2 Solution Part 1
Unit 14 P2 Solution Part 1: Step 1
Unit 14 P2 Solution Part 1: Step 2
Unit 14 P2 Solution Part 2
Unit 14 P2 Solution Part 2: Step 1
Unit 14 P2 Solution Part 2: Step 2
Unit 14 P3 Example Question
Unit 14 P3 Solution
Unit 14 P3 Solution Working Out
Unit 14 P5 Worked Example
Unit 14 P6 Example Question
Unit 14 P6 Solution Part 1
Unit 14 P6 Solution Part 2
Unit 14 P7 Example Question
Unit 14 P7 Solution
Unit 14 P8 Example Question
Unit 14 P8 Solution
Unit 27 A
Unit 27 A (All)
Unit 27 A Distinction
Unit 27 A Merit
Unit 27 A Pass
Unit 27 A1: Static Parameters
Unit 27 A2: Analysis of Statically Determinate Framed Structures
Unit 27 B
Unit 27 B (All)
Unit 27 B Distinction
Unit 27 B Merit
Unit 27 B Pass
Unit 27 B1: Beam Parameters
Unit 27 B2: Theoretical Beam Analysis
Unit 27 B3: Experimental Beam Analysis
Unit 27 C
Unit 27 C (All)
Unit 27 C Distinction
Unit 27 C Merit
Unit 27 C Pass
Unit 27 C1: Axial Loading
Unit 27 C2: Bending Loading
Unit 27 C3: Shear Loading
Unit 27 C4: Design Considerations
Unit 27 Worked Examples Assignment 1
Unit 27 Worked Examples Assignment 2
Unit 27 Worked Examples Assignment 3
Unit 27:Static Mechanical Principles in Practice
Unit 3 A1
Unit 3 A2
Unit 3 A3
Unit 3 A4
Unit 3 A5
Unit 3 A6
Unit 3 B1
Unit 3 B2
Unit 3 B3
Unit 3 B4
Unit 3 B5
Unit 3 C1
Unit 3 C2
Unit 3 C3
Unit 3 D1
Unit 3 D2
Unit 3 Grade Descriptors
Unit 3 Key Terms
Unit 3 Learning Outcomes
Unit 31: Thermodynamics Principles and Practice
Unit 4 A
Unit 4 A (All)
Unit 4 A Distinction
Unit 4 A Merit
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Unit 4 A1: Business Functions and Key Activities
Unit 4 A2: Trade Considerations
Unit 4 A3: Competitive Advantage
Unit 4 Applied Commercial and Quality Principles in Engineering
Unit 4 B
Unit 4 B (All)
Unit 4 B Distinction
Unit 4 B Merit
Unit 4 B Pass
Unit 4 B1: Reasons for Cost Control and Types of Costs
Unit 4 B2: Activity-Based Costing Method
Unit 4 C
Unit 4 C (All)
Unit 4 C Distinction
Unit 4 C Merit
Unit 4 C Pass
Unit 4 C1: Quality Systems
Unit 4 C2: The Principles and Processes of Value Management
Unit 5 D1 Step 1
Unit 5 D1 Step 2
Unit 5 D1 Step 3
Unit 5 M1 Example Question
Unit 5 M1 Solution
Unit 5 M1 Solution: Direct Stress
Unit 5 M1 Solution: Direct Stress FOS
Unit 5 M1 Solution: Shear Stress
Unit 5 M1 Solution: Shear Stress FOS
Unit 5 M2 Step 1
Unit 5 M2 Step 2
Unit 5 M2 Step 3
Unit 5 P1 Example Question
Unit 5 P1 Worked Example
Unit 5 P3 (a) Solution
Unit 5 P3 (a) Solution:Extension
Unit 5 P3 (a) Solution:Strain
Unit 5 P3 (a) Solution:Stress
Unit 5 P3 (b) Solution
Unit 5 P3 (b) Solution: Deflection
Unit 5 P3 (b) Solution: Shear Strain
Unit 5 P3 (b) Solution: Shear Stress
Unit 5 P3 Example Question
Unit 5 P4 Example Question
Unit 5 P4 Solution Q1
Unit 5 P4 Solution Q2
Unit 5 P4 Solution Q3
Unit 5 P5 Example Question
Unit 5 P5 Solution
Unit 5 P5 Solution Step 1
Unit 5 P5 Solution Step 2
Unit 5 P5 Solution Step 3
Unit 5 P5 Solution Step 4
Unit 5 P6 Solution
Unit 5 P7 Example Question
Unit 5 P7 Solution
Units You Might Use
Universal Gas Constant
Universal Gas Law
Universal Gas Law Worked Example
Up Thrust
Upsilon
Upthrust
Use of Stoichiometric Ratio Worked Example
User, Investigation, Specification Tips
Using FOS Example Question 1
Using FOS Example Question 1 Solution
Using FOS to Drive Design Decision to Determine Number or Rivets Needed Worked Example
Using Shear Stress Example Question 1
Using Shear Stress Example Question 1 Solution
Using Shear Stress to Determine Force Needed for a Hole Punch Worked Example
Using Tags Two
Vacuum Permittivity
Valency
Value Added
Value at Start
Value at Time 't'
Value Engineering and Analysis
Values of Coefficient of Linear Expansion
Values of the Polytropic Index
Variables
Vectors
Vectors Full
Vectors Introduction
Velocity
Velocity at the Point of Measurement
Velocity Time Graph
Venturi Meter
Vertical Component
Vibrations
Voltage
Voltage Arcoss Capacitor
Voltage Decay on Capacitor
Volume
Volume of Dry Steam
Volume of Partially Dry Steam
Water Vapour
Waveform Average Value
Weight
WELCOME
Wet Steam
What is Quality?
Where do the Equations for the Internal Stress in a Parallel Compound Bar Come From?
Where does Bernoulli's Equation Come From?
Where does Compound Axial Stress Formula Come From?
Where does F.E. equation come from?
Where does the H.E. equation come from?
Where does the K.E.equation come from?
Where Does the Linear Compound Bar Equation Come From?
Where does the Non-Flow Work Equation Come From?
Where does the P.E. equation come from?
Where the 'I' Equation Comes From
Wind Tunnel
Winding Drum/ Rotational Machine Worked Example
Wing Area
Word Cloud
Work
Work and P-V Graphs
Work Done by Change in Gas Volume Worked Example
Work for an Isothermal Process
Work for an Isothermal Process Boyle Version
Work for an Isothermal Process Uni Gas Version
Work for Isothermal Compression
Work for Polytropic Change
Work in a Non-Flow System
Work Under a Simple P-V Graph
Worked Example Calculating the Reaction Forces on a Beam Using Moments
Worked Example for Four Bar Linkage
Worked Example for Four Bar Linkage Question
Worked Example for Four Bar Linkage Solution Q1
Worked Example for Four Bar Linkage Solution Q2, Q3 & Q4 with Vectors
Worked Example for Four Bar Linkage Solution Q5
Worked Examples
Worked Examples For Unit 1 Section B
Worked Examples For Unit 1 Section D
Xi
Young's Modulus
Young's Modulus Data
Zeta