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Topic 14: Dimensional Analysis

Lesson 14.0 Introduction to Dimensional Analysis
Lesson 14.1 Dimensional Analysis
Lesson 14.2 Common Units
Lesson 14.3 Harder Examples
 Lesson 14.1 Dimensional Analysis

Dimensional Analysis
Dimensional Analysis is a way to check formulae and
equations using units (dimensions).

SI Base Units

Symbol Name Quantity

s second time

m meter length

kg kilogram mass
 A radian is a ratio so does not have a unit.

Anything that is unitless can be left out during dimensional analysis.

The coefficients of friction (μ) and restitution (e) are also ratios, and
can also be ignored.

Trigonometric Ratios and Logarithms: If any formula being used in
dimensional analysis involves any of the trigonometric ratios (sin,
cos or tan), logarithms (log) again these can be ignored to.
 How to conduct dimensional
analysis

1. Replace the variables with their units (constants and other
unitless terms can be ignored).

2. You can only add/subtract the same units, and your answer will
be in the same units, e.g 4m + 5m= 9m so metres plus metres is still
metres.

3. You can multiply and divide by different units to tidy up the
expression/equation.
Worked example:
find the unit of Volume:
 RECTANGLE

Width

Length

Area of rectangle = length x width
 Lesson 14.2 Common Units

When finding the units from a formula, simply substitute the measured
quantity for each variable.
worked example:
 Speed/Velocity

distance
Speed =
time
 Acceleration

Final Vel - Initial Vel
acc =
time
 Force
Force = mass x acceleration
 Momentum/Impulse

Momentum = Mass x Velocity
 Power
Power = Force x Velocity
 Energy/ Work

P.E = Mass x Gravity x Height
 1
K.E = Mass x (velocity)²
2
Work = Force x Distance
Angular Velocity
Radians
ω=
Second
 Unit Unit

Velocity
ms⁻¹ ms⁻¹
(Speed)

Acceleration ms⁻² ms⁻²

Force N Kg ms⁻²

Momentum/Impulse Ns kg ms⁻¹

Energy/Work J Kg m² s⁻²

Power W Kg m² s⁻³

Angular velocity Rad s⁻¹ Rad s⁻¹
Extra excercises:
 Lesson 14.3 Harder Examples

When validating an equation the units of the Left hand side must be
equal to the units on the right hand side. i.e LHS=RHS

All constants are omitted e.g
Worked Example :

Solution
 Question 1
Use the method of dimensions to check whether the following
formulae are dimensionally valid where u and v are velocities,
g is an acceleration, s is a distance and t is a time.

(a) v² = u² + 2gs
(b) v = u - gt
(c) s = 0.5 gt² + ut

(d) t = 2s
g
 Question 2
A piano wire has a mass m, length l, and tension F. Which
of the formulae for the period of vibration, t, could be
correct?
ml F
(a) t = 2π (b) t = 2π
F ml
 Question 3
The viscosity of a fluid n is related to the force F required to move
nAs
it at speed s by the formula F = where A is an area and y is
y
a distance.
Find the unit of viscocity.

4)A student cannot remember the formula for maximum range R of a projectile on to a
horizontal plane. He knows the formula only involves the initial speed u and the
acceleration due to gravity g and has no dimensionless constants.
Find the formula of R using dimensional analysis.