How Do I Find The Maxima And Minima Of A Function? - MyTutor

Find a tutorHow it worksPricesResourcesFor schoolsBecome a tutor

+44 (0) 203 773 6024

Log inSign upAnswers>Maths>A Level>ArticleHow do I find the maxima and minima of a function?

What are the maxima and minima?The maxima of a function f(x) are all the points on the graph of the function which are 'local maximums'. A point where x=a is a local maximum if, when we move a small amount to the left (points with xa), the value of f(x) decreases. We can visualise this as our graph having the peak of a 'hill' at x=a. Similarly, the minima of f(x) are the points for which, when we move a small amount to the left or right, the value of f(x) increases. We call these points 'local minimums', and we can visualise them as the bottom of a 'trough' in our graph. One similarity between the maxima and minima of our function is that the gradient of our graph is always equal to 0 at all of these points; at the very top of the peaks and the very bottom of the troughs, the slope of our graph is completely flat.This means our derivative, f '(x), is equal to zero at these points.How do we find them?1) Given f(x), we differentiate once to find f '(x). 2) Set f '(x)=0 and solve for x. Using our above observation, the x values we find are the 'x-coordinates' of our maxima and minima. 3) Substitute these x-values back into f(x). This gives the corresponding 'y-coordinates' of our maxima and minima.Which of these points are maxima and which are minima?Here we may apply a simple test. Assume we've found a stationary point (a,b): 1) Differentiate f '(x) once more to give f ''(x), the second derivative. 2) Calculate f ''(a): - If f ''(a)<0 then (a,b) is a local maximum.- If f ''(a)>0 then (a,b) is a local minimum. To see why this works, imagine moving gradually towards our point (a,b), plotting the slope of our graph as we move. If our point is a local maximum, we can that this slope starts off positive, decreases to zero at the point, then becomes negative as we move through and past the point. Our slope, f '(x), is decreasing throughout this movement, so we must have that f ''(a)<0. The exact reverse is true if (a,b) is a local minimum. Our slope is increasing through the same movement, so here we have that f ''(a)>0. Example:Find the maxima and minima of f(x)=x3+x2.1) Find f '(x).- Using the rules of differentiation, we find f '(x)=3x2+2x. 2) Now let's set f '(x)=0: 3x2+2x=0                   x(3x+2)=0     (factorising)                   x=0 or x=-2/33) Substitute these values back in so that we can find our 'y-coordinates': f(0)=(0)3+(0)2=0                    f(-2/3)=(-2/3)3+(-2/3)2=4/27 Hence, our stationary points are (0,0) and (-2/3,4/27). 4) Finally, we use our test: f ''(x)=6x+2                    f ''(0)=2     (substituting x=0)                    f ''(-2/3)=-2   (substituting x=-2/3) 2>0, so (0,0) is a local minimum of f(x).-2<0, so (-2/3,4/27) is a local maximum of f(x).

AMAnswered by Alex M. • Maths tutor

296510 Views

See similar Maths A Level tutors

Need help with Maths?

One-to-one online tuition can be a great way to brush up on your Maths knowledge.

Have a Free Meeting with one of our hand picked tutors from the UK's top universities

Find a tutor

Download MyTutor's free revision handbook?

This handbook will help you plan your study time, beat procrastination, memorise the info and get your notes in order.

8 study hacks, 3 revision templates, 6 revision techniques, 10 exam and self-care tips.

Download handbook

Free weekly group tutorials

Join MyTutor Squads for free (and fun) help with Maths, Coding & Study Skills.

Sign up

Related Maths A Level answers

All answers ▸

How do polar coordinate systems work?

Answered by Alexander M.

A tank is filled with water up to the height H0. At the bottom of the tank, there is a tap which is opened at t=0. How does the height of liquid change with time?(Hint: dH/dt is proportional to -H)

Answered by Maxim B.

How do you find the angle between two vectors?

Answered by OWEN B.

A ball is thrown vertically upwards with a speed of 24.5m/s. For how long is the ball higher than 29.4m above its initial position? Take acceleration due to gravity to be 9.8m/s^2.

Answered by Sherry B.

We're here to help

Contact us+44 (0) 203 773 6020

Company Information

CareersBlogSubject answersBecome a tutorSchoolsSafeguarding policyFAQsUsing the Online Lesson SpaceTestimonials & pressSitemapTerms & ConditionsPrivacy Policy

Popular Requests

Maths tutorChemistry tutorPhysics tutorBiology tutorEnglish tutorGCSE tutorsA level tutorsIB tutorsPhysics & Maths tutorsChemistry & Maths tutorsGCSE Maths tutors

CLICK CEOP

Internet Safety

Payment Security

Cyber

Essentials

MyTutor is part of the IXL family of brands:

IXL

Comprehensive K-12 personalized learning

Rosetta Stone

Immersive learning for 25 languages

Wyzant

Trusted tutors for 300 subjects

Education.com

35,000 worksheets, games, and lesson plans

Vocabulary.com

Adaptive learning for English vocabulary

Emmersion

Fast and accurate language certification

Thesaurus.com

Essential reference for synonyms and antonyms

Dictionary.com

Comprehensive resource for word definitions and usage

SpanishDictionary.com

Spanish-English dictionary, translator, and learning resources

FrenchDictionary.com

French-English dictionary, translator, and learning

Ingles.com

Diccionario ingles-espanol, traductor y sitio de apremdizaje

ABCya

Fun educational games for kids

© 2025 by IXL Learning