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Beam Strength+
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Carbon Steel
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Newton's Laws of Motion
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Plate Deflection
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Shafts
Shock Loads
Spring Coefficients
Spring Strength
Steel Beam Sizes
Stress Concentration
Table of the Elements
Thermal Conductivity
Trigonometry
UniQon
Upheaval Buckling
Velocity & Acceleration
Vessel Motions
Vessel RAOs
Vibration Damping
Vortex Shedding
Walls, Barriers & Tanks
Weight Lifting
Welding
Wire Rope

Technical Help▼
2ᴺᴰ Moment of Area
2ᴺᴰ Moment of Area+
Added Mass & Drag
Areas & Volumes
Balancing (rotary)
Beam Strength
Beam Strength+
Bearings (low friction)
Bearings (plain)
Belt Drives
Bending Moments
BiMetallic Strip
Buoyancy
Carbon Steel
Catenary
Catenary+
Cathodic Protection
Centrifugal Force
Colebrook & Fanning
Column Buckling
Combined Stress
Co-ordinates
Copper Alloys
Core Pressure
Electrical Current
Elliptical Curves
Engineering Basics
Explosions
Fans
Fatigue
Flange Gaskets
Flanges
Floors
Fluid Forces
Fluid Numbers
Friction
Galvanic Corrosion
Gears
Hardness Conversion
HPHT Flexible Pipe
Lift Rigging
Logs & Trig
Machining Tolerances
Metal Properties
Mode Shapes
Mode 14
Newton's Laws of Motion
Ocean Waves
Optical Lenses
Padeyes
Partial Pressures
Piling
Pipe Flow
Pipe Flow+
Pipe Strength
Planetary Spin
Plastic Stress in Beams
Plate Deflection
Pressure Vessels
Reel Capacity
Resolution of Forces
Screw Thread Machining
Screw Threads
Shafts
Shock Loads
Spring Coefficients
Spring Strength
Steel Beam Sizes
Stress Concentration
Table of the Elements
Thermal Conductivity
Trigonometry
UniQon
Upheaval Buckling
Velocity & Acceleration
Vessel Motions
Vessel RAOs
Vibration Damping
Vortex Shedding
Walls, Barriers & Tanks
Weight Lifting
Welding
Wire Rope

Q & A▼
General
2ᴺᴰ Moment of Area
2ᴺᴰ Moment of Area+
Added Mass & Drag
Areas & Volumes
Balancing (rotary)
Beam Strength
Beam Strength+
Bearings (low friction)
Bearings (plain)
Belt Drives
Bending Moments
BiMetallic Strip
Buoyancy
Carbon Steel
Catenary
Catenary+
Cathodic Protection
Centrifugal Force
Colebrook & Fanning
Column Buckling
Combined Stress
Co-ordinates
Copper Alloys
Core Pressure
Electrical Current
Elliptical Curves
Engineering Basics
Explosions
Fans
Fatigue
Flange Gaskets
Flanges
Floors
Fluid Forces
Fluid Numbers
Friction
Galvanic Corrosion
Gears
Hardness Conversion
HPHT Flexible Pipe
Lift Rigging
Logs & Trig
Machining Tolerances
Metal Properties
Mode Shapes
Mode 14
Newton's Laws of Motion
Ocean Waves
Optical Lenses
Padeyes
Partial Pressures
Piling
Pipe Flow
Pipe Flow+
Pipe Strength
Planetary Spin
Plastic Stress in Beams
Plate Deflection
Pressure Vessels
Reel Capacity
Resolution of Forces
Screw Thread Machining
Screw Threads
Shafts
Shock Loads
Spring Coefficients
Spring Strength
Steel Beam Sizes
Stress Concentration
Table of the Elements
Thermal Conductivity
Trigonometry
UniQon
Upheaval Buckling
Velocity & Acceleleration
Vessel Motions
Vessel RAOs
Vibration Damping
Vortex Shedding
Walls, Barriers & Tanks
Weight Lifting
Welding
Wire Rope

Useful Stuff▼
Algebra
Trig Functions
Calculus Max-Min
Differentiation Rules
Differentiation Trig
Differentiation Logs
Integration Methods
Standard Integrals
Stiffness & Capacity
Mohr's Circle
Earth's Atmosphere
Earth's Properties
Stars & Planets
Laws of Motion
Solar System Orbits
Planetary Spin
Core Pressure
Earth's Magnetic Field
Dark Matter?
The Big Bang
Rydberg Atom
Planck Atom
Classical Atom
Newton Atom
The Atom
Newton's 'G'
Coulomb's 'k'
The Neutron
E=mcÂ˛
Gravity is Magnetism
Relativity is Dead
Quantum Theory is Dead
Brakes and Tyres
Vehicle Impacts
Speeding vs Safety
Surface Finish
Pressure Classes
Hardness Conversion
Energy
Electro-Magnetic Spectra
Thermodynamics
Steam (properties)
Heat
Work Energy Power
Constants

Materials▼
Carbon Steel
SAE Steel Grading
Plain Carbon Steels
Special Carbon Steels
Alloy Carbon Steels
Stainless Steels
Uses
Utilisation

PhD Suggestions▼
Assignments...
Earth
Fuels
Pollution
Sub-atomic Physics
Transport
Fact, Fiction & Hmm!

# The LAWS of ORBITAL MOTION

Elliptical Orbits

A detailed but simple mathematical explanation of Isaac Newton's laws of orbital motion and how they apply to astronomic and atomic systems.

This publication includes a detailed mathematical explanation of: orbital motion, planetary spin, core pressure and the earth's magnetic field.

It explains why planets return to their orbital path after being diverted by adjacent celestial bodies, and why satellite orbital planes always settle normal to the axis of rotation of their force-centres.

Along with what spin and core pressure theories can tell us about the internal structure of stars, planets and moons.

### Availability:

CalQlata publications are available through Amazon Books in the following formats:

Paperback

Kindle

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