Basic Biomechanics

Newton’s contribution to medicine is luckily not limited to some distinctly queasy toad vomit for curing plague(Flood 2020) ¹. He was genius enough to foresee the coming of Orthopaedics and define the three laws of motions, namely Inertia, Acceleration and Reaction. These three laws govern the bio-mechanics of human motion.

Inertia

Every body continues to be in a state of rest or uniform motion, unless acted upon by an external force.

Acceleration  

Acceleration of a mass is directly proportional to the force applied to mass 

Force = Mass x Acceleration (F=MA)

Reaction  

For every action there is an equal and opposite reaction.

Apart from these, we should be clear about the concepts Force, Vector, Moment, Torque, Couples, Levers etc. These are prerequisites to understand free body diagrams and joint reaction forces.

What exactly is force?

Force is a mechanical load in a particular direction. Hence force is a vector and can be plotted in x, y and z-axes. Vector introduces the concept of direction to a quantity. Force vector is the direction of the force.

Pythagoras theorem, c² = a² + b², allows calculation of an unknown force if the force in the two other axes is known

What is weight?

Weight is the force exerted by gravity on an object, calculated using the formula: Weight = Mass x Gravity. In this equation, mass is measured in kilograms (kg), gravity in meters per second squared (m/s²), and the resulting force, or weight, is in newtons (N). For instance, a person with a mass of 70 kg would have a weight of approximately 700 N (assuming gravity is 10 m/s² for simplicity).

Moment

The effect of a force acting at a given distance perpendicular to a body is known as a moment. It is calculated as Moment = Force x Perpendicular Distance. When a force is applied at a distance from a pivot point, it causes the segment to rotate, resulting in rotational or angular movement. The distance from the pivot to the point where the force is applied is called the moment arm, and the rotational effect produced is referred to as the turning moment. The turning moment, also called torque, is expressed as Turning Moment = Force x Moment Arm or F x d = Torque, representing the magnitude of rotational force.

Couples

A pair of forces acting to create the same moment

e.g. opening a bottle cap with two fingers

Levers

Lever is a machine designed to move objects

It has got a bar and a fulcrum.

3 classes of levers

• Class 1

  

  e.g.: see-saw, scissors

• Class 2

  

  e.g.: Stapler, Doors

• Class 3

  Most common lever in the body

e.g.: Broom

The body is a system of levers

Kinematics – definitions

Kinematics is the study of motion (acceleration, velocity, displacement) without reference to the forces causing motion

Work is Force x Degree of displacement

Energy: It is a measure of work and its units are joules or Newton-metres. Energy is never created or destroyed; instead, it can be transferred between different forms of energy and between bodies. Despite these transformations, the total amount of energy in a closed system always remains constant.

Potential energy

Stored energy – the potential of a body to do work whilst at rest

Kinetic energy

The energy required to stop a moving body 

E=1/2MV²

Power is work done per unit time

Momentum

A body’s mass multiplied by its velocity

Speed

A measure of distance travelled over a certain time

It gives no indication of the direction of travel

Velocity

A measure of distance of displacement over a given time

Same units as speed but adding information regarding direction

M/second east for example

Acceleration describes the rate of change of velocity or speed and is measured in metres per second square (m/sec²)

Mass moment of inertia

Ability of a body to resist rotational moment

Depends on the body’s mass and its shape

Finite Element Analysis (FEA)

It is a computer-generated method used to analyze the forces and interactions between two bodies. This technique is particularly valuable in studying stresses and strains at the bone-implant interface. By breaking down complex structures into smaller, manageable elements, FEA allows for a detailed assessment of how forces are distributed and how materials respond under various conditions. It is commonly used in biomedical engineering to optimize the design and performance of implants, ensuring they can withstand the mechanical demands placed on them while minimizing the risk of failure.

References

Flood, Alison. 2020. “Isaac Newton Proposed Curing Plague with Toad Vomit, Unseen Papers Show.” The Guardian, June. https://www.theguardian.com/books/2020/jun/02/isaac-newton-plague-cure-toad-vomit.

Footnotes

1. Newton had been a student at Trinity College, Cambridge, when the university closed as a precaution against the bubonic plague, which killed 100,000 people in London in 1665 and 1666. Newton’s analysis of De Peste is the most substantial written statement he is known to have made about the plague!