Monday, 9 March 2026

Finding Cheaper – and Sometimes Better – Ways to Do Things

Research and Development (R&D) often sounds like something that happens in huge laboratories owned by large corporations with budgets the size of small countries. In reality, R&D can start with something much simpler:

You need something… and it either doesn’t exist or costs far too much.

That moment is where innovation usually begins.

The Real Purpose of R&D

At its heart, R&D is about solving problems. Often that means:

Finding a cheaper way to achieve the same result
Discovering a simpler design
Improving efficiency or reliability
Or occasionally inventing something completely new

In education, sailing, and video production — three areas where I spend a lot of time — this happens constantly.

The “That’s Too Expensive” Moment

Many useful pieces of equipment exist, but sometimes the price tag makes your eyes water.

A scientific sensor, specialist sailing instrument, or video accessory might cost hundreds or even thousands of pounds.

At that point you have two options:

Buy it anyway and hope it lasts a long time
Ask whether you could build something similar yourself

The second option is where R&D begins.

Small-Scale R&D at Home

Modern technology makes small-scale innovation much easier than it used to be.

Today you can combine:

Together these allow individuals, schools, and small businesses to create equipment that previously only large companies could produce.

Many of the experiments we run in our laboratory started this way.

Sometimes the result is simply a cheaper alternative.
Occasionally it turns out to be better than the commercial product.

A Sailing Example

Take something as simple as wind measurement.

Traditional masthead wind instruments can cost hundreds or thousands of pounds. Yet the core idea is surprisingly straightforward:

A weather vane to measure wind direction
An anemometer to measure wind speed
A way of sending the data down the mast

With modern electronics, it becomes possible to experiment with building your own system using digital sensors and small display units. The process itself becomes an educational project — combining physics, electronics, coding, and engineering.

Even if the first design fails (and many prototypes do), the learning is invaluable.

The Hidden Benefit of R&D

The greatest value of R&D is not always the finished device.

Often the biggest gain is understanding how things actually work.

Once you understand the underlying principles, you are no longer dependent on expensive black-box equipment. Instead, you can adapt, repair, and improve technology yourself.

That mindset — curiosity combined with practical experimentation — is what drives progress in science, engineering, and education.

And sometimes it all begins with a very simple thought:

“Surely there must be a cheaper way to do this.”

Sunday, 8 March 2026

Time Management for Learning

(Working Smarter, Not Just Harder)

Students often believe that the key to success in exams is simply working longer hours. If five hours of revision is good, then ten hours must be better… right?

Unfortunately, learning does not work like that.

In reality, how you manage your learning time is far more important than how much time you spend studying.

After more than 40 years of teaching, I’ve seen students transform their results simply by changing how they organise their learning.

Let’s look at some of the key principles.

1. Short Sessions Beat Long Marathons

The brain is not designed to absorb information continuously for hours on end.

After around 25–40 minutes, concentration starts to decline.

A better approach is to use short focused sessions.

Example structure:

30 minutes focused learning
5 minute break
Repeat

This approach (similar to the Pomodoro technique) helps keep concentration high and prevents mental fatigue.

2. Plan Your Week in Advance

Students often waste a huge amount of time simply deciding what to revise.

A simple weekly plan solves this.

Example weekly structure:

Day	Subject	Topic
Monday	Maths	Integration
Tuesday	Chemistry	Reaction Rates
Wednesday	Biology	Genetics
Thursday	Maths	Trigonometry
Friday	Physics	Electricity

This removes decision fatigue and makes starting revision much easier.

3. Mix Subjects

Spending four hours on the same subject rarely works well.

The brain responds better when topics alternate.

For example:

Maths problem solving
Biology reading
Chemistry calculations
Physics exam questions

Switching subjects helps maintain focus and strengthens long-term retention.

4. Build in Retrieval Practice

Many students spend hours reading notes.

Unfortunately, reading is a passive activity.

Learning improves dramatically when students test themselves.

Examples include:

Flashcards
Past paper questions
Explaining the topic out loud
Teaching someone else

The brain remembers information far better when it has to retrieve it from memory.

5. Leave Time for Thinking

One of the most overlooked parts of learning is reflection.

After completing a topic, ask:

What did I understand well?
What confused me?
What do I need to revisit?

This short reflection process can save hours of wasted revision later.

6. Protect Your Best Thinking Time

Everyone has a time of day when they think most clearly.

For many students this is early evening, though some work best in the morning.

Use this time for:

difficult topics
problem solving
exam questions

Leave simpler tasks for lower-energy times.

7. Don’t Forget Breaks

Learning requires energy.

Regular breaks help the brain consolidate information.

A quick walk, fresh air, or even a cup of tea can help reset concentration.

Ironically, taking breaks often increases total productivity.

Final Thoughts

Good time management is not about filling every minute with work.

It is about making the time you spend learning genuinely effective.

The most successful students tend to:

Plan their learning
Study in short focused sessions
Test themselves regularly
Reflect on their progress

When these habits become routine, learning becomes far more efficient — and far less stressful.

At Philip M Russell Ltd and Hemel Private Tuition, we work with students to develop not only subject knowledge but also the learning strategies and exam techniques needed to succeed in GCSE and A-Level examinations.

Sometimes the biggest improvement comes not from working harder…
but from learning how to learn better.

Saturday, 7 March 2026

Developing a Better Exam Technique

Many students spend hours learning the content of a subject but far less time learning how to take the exam itself. Yet in reality, exam technique can easily be the difference between a B and an A, or a pass and a fail.

After more than 40 years of teaching and preparing students for GCSE and A-Level exams, I’ve seen the same pattern repeatedly. Students often know more than they manage to show on the paper. The problem isn’t knowledge — it’s exam technique.

Let’s look at how to improve it.

1. Read the Question — Properly

It sounds obvious, but many marks are lost because students misread the question.

Examiners are very precise with wording. Words like:

Describe – give the features
Explain – give reasons why
Evaluate – give arguments for and against
Calculate – show the working

If the question asks you to explain, a simple description won’t earn full marks.

A useful habit is to underline the command word before answering.

2. Use the Marks as a Guide

The number of marks tells you how much the examiner expects.

For example:

Marks	What the examiner expects
1–2 marks	Short factual answer
3–4 marks	Several points or a short explanation
6 marks	Clear explanation with multiple steps
10+ marks	Structured argument or extended reasoning

If a question is worth 6 marks, a one-sentence answer is almost certainly not enough.

3. Show Your Working

This is particularly important in maths and science.

Even if the final answer is wrong, examiners often award method marks.

For example:

Write the formula
Substitute the values
Show the calculation

A student who shows their working might still get 3 or 4 marks, while a student who writes only the wrong answer gets zero.

4. Structure Longer Answers

For longer questions, a simple structure works well.

One effective method is PEEL:

Point – make a clear statement
Evidence – support it with facts or data
Explain – say why it matters
Link – connect back to the question

This structure is particularly useful in subjects such as biology, geography, and sociology.

5. Manage Your Time

A common mistake is spending too long on one question.

A simple rule is:

Marks ≈ Minutes

So for a 60-mark paper in 60 minutes, you should spend roughly:

5 minutes on a 5-mark question
10 minutes on a 10-mark question

If you get stuck, move on and return later.

6. Practise with Past Papers

Nothing improves exam technique faster than real exam questions.

Past papers help you:

recognise question patterns
learn the mark schemes
understand what examiners want

When possible, mark your work against the official mark scheme.

You’ll quickly notice the phrases examiners expect.

7. Answer the Question That Was Asked

This may sound obvious, but it’s surprisingly common for students to write everything they know about a topic rather than answering the specific question.

Examiners can only award marks for relevant points.

Always ask yourself:

“Does this sentence answer the question?”

If not, leave it out.

Final Thought

Good exam technique is a skill that can be learned.

Students who practise reading questions carefully, structuring answers, showing their working, and managing their time often see rapid improvements in their marks.

Knowledge is important — but knowing how to demonstrate that knowledge in an exam is just as important.

Friday, 6 March 2026

Learning vs Revision – Why They Are Not the Same Thing

Every exam season I see the same pattern. Students say they are revising hard — hours with books open, highlighters at the ready, notes everywhere. Yet when the exam paper appears, the knowledge somehow vanishes.

The reason is simple.

Revision and learning are not the same thing.

Revision assumes the knowledge is already there. Learning is the process of putting it there in the first place.

Think of it like sailing. You can revise how to steer a boat, but if you’ve never learned how the wind affects the sails, revision alone won’t stop you sailing straight into the riverbank.

Let’s look at how real learning works.

Step 1: Understand Before Memorising

The biggest mistake students make is trying to memorise something they don’t understand.

Understanding creates a framework in the brain. Facts then have somewhere to attach themselves.

For example:

In physics, if you understand that electricity flows because of potential difference, circuits suddenly make sense.
In maths, understanding why differentiation works makes remembering the rules much easier.
In chemistry, knowing why atoms bond helps you remember reaction patterns.

Learning should start with concepts first, details later.

Step 2: Active Learning Beats Passive Reading

Reading notes repeatedly feels productive — but it is often an illusion.

Effective learning requires active engagement.

Better methods include:

Answering exam questions
Explaining the concept out loud
Teaching the topic to someone else
Drawing diagrams or flowcharts
Solving problems without looking at notes

When the brain struggles slightly, it strengthens the memory. Passive reading rarely does.

Step 3: Use Retrieval Practice

One of the most powerful learning tools is retrieval practice — forcing the brain to recall information.

Instead of reading notes again, try:

Writing down everything you remember about a topic
Using flashcards
Doing practice questions from memory
Testing yourself regularly

Each time you retrieve information from memory, the neural pathways become stronger.

This is why systems such as the Leitner flashcard method are so effective.

Step 4: Space Your Learning

Cramming might get you through tomorrow’s test, but the knowledge rarely lasts.

Spacing learning over time is far more effective.

A good pattern might look like:

Day 1 – Learn the topic
Day 2 – Review briefly
Day 5 – Test yourself
Day 14 – Test again
Day 30 – Quick review

Each gap forces the brain to rebuild the memory, making it stronger.

Step 5: Use Multiple Ways to Learn

The brain remembers things better when information arrives in different forms.

For example:

Diagrams and visual explanations
Practical experiments
Videos and demonstrations
Written summaries
Solving problems

This is one reason I often run experiments in the lab with students. Seeing a wave on an oscilloscope or measuring electrical resistance makes the idea far easier to remember than reading about it in a textbook.

Step 6: Focus on Exam Technique

Once learning has happened, revision becomes useful.

Revision should focus on:

Practising exam questions
Understanding mark schemes
Timing answers
Recognising common question patterns

Exams reward how well you apply knowledge, not just how much you remember.

A Final Thought

Learning is like building a boat.

Revision is like polishing the paintwork.

You can polish the paint all you like — but if the hull isn’t built properly, the boat still won’t float.

Build the understanding first. Then revision becomes far more effective.

Thursday, 5 March 2026

How to revise effectively (without turning into a human highlighter)

There’s a particular kind of optimism that appears every term.

It usually arrives at about 8:30pm, armed with brand-new highlighters, a packet of sticky notes, and a tragic belief that “rewriting the textbook” counts as revision.

I love the enthusiasm. I really do.
But if revision were a sport, highlighting would be the warm-up jog… and most students are doing it for three hours, then wondering why they still can’t answer a 6-marker.

So here’s a practical, no-nonsense guide to revising effectively — the stuff that actually moves marks — with a bit of humour, because otherwise we’d all cry into our flashcards.

1) Revision isn’t “taking in information” — it’s practising getting it out

If you only do one thing, do this:

Test yourself. Early. Often. Slightly annoyingly.

Because exams don’t ask:

“Have you seen this page before?”

They ask:

“Can you retrieve it under pressure with a pen that suddenly stops working?”

Best tools:

Blurting (write everything you know, then check)
Practice questions
Flashcards (done properly — see below)
Past papers + mark schemes

If it feels a bit uncomfortable, good. That’s your brain lifting weights.

2) Start with the topics that make you go “yeah… I’ll do that later”

Everyone has a “later” topic.
It’s usually algebra, electricity, enzymes, or that one poem where nobody knows what’s going on (including the poet).

Do a quick traffic-light audit:

Green: I can answer questions without notes.
Amber: I sort of know it, but I wobble.
Red: If you asked me now I’d leave the country.

Then revise in this order:
Red → Amber → Green (quick check only).

Green feels nice.
Red gets results.

3) The “45–15” method (because humans aren’t built for 3-hour marathons)

Try:

45 mins focused work
15 mins break
Repeat 2–3 times, then stop.

On the break:

Move
Drink water
Snack
Do not “just quickly check” social media unless you fancy losing 40 minutes to a video of a dog reviewing hotel rooms.

4) Make revision active: turn notes into questions

If you have notes already, brilliant — now convert them.

Instead of:

“Ohm’s Law: V = IR”

Make:

“If V = 12V and R = 4Ω, what is I?”
“What happens to current if resistance doubles (voltage constant)?”
“What’s the difference between resistance and resistivity?”

Your goal is to create something you can test yourself on.

5) Flashcards: the right way (and the way that wastes your time)

✅ Good flashcards:

One question, one answer
Include examples and common mistakes
Used with spaced repetition (coming up)

❌ Bad flashcards:

A whole page of notes squeezed onto a card
“Define photosynthesis” with a paragraph answer you never actually say
Cards you read like a tiny textbook (adorable, but no)

6) Spaced repetition: revise little and often (instead of panic and chaos)

Spacing is revision’s secret weapon.

A simple schedule:

Day 1: learn it
Day 2: quick test
Day 4: test again
Day 7: test again
Day 14: test again

Short, repeated retrieval beats one massive “revision day” every time.

7) Interleaving: mix topics like an exam does

Students love revising in neat blocks:

“Today I do only waves. Tomorrow only electricity. Friday only suffering.”

But exams don’t work like that. They bounce.

So mix it:

20 mins topic A
20 mins topic B
20 mins topic C
Then circle back.

This forces your brain to choose the right method, not just repeat the same one.

8) Past papers: how to use them without fooling yourself

A past paper is only useful if you do it like this:

Do questions without notes
Mark with the mark scheme
For each mistake, write:
- What I did wrong
- What the examiner wanted
- A model answer (or corrected method)
Re-do the same style question 2–3 days later

If you do a past paper, look at the mark scheme, and say “ah yes, makes sense” — that’s not revision. That’s mark scheme appreciation.

9) The “two-page rule” for every topic

For each topic, aim to end up with:

One page of key facts / equations / definitions
One page of exam-style questions you can answer

That becomes your personal “exam pack”.

It’s also a brilliant way to stop revision turning into a stationery hobby.

10) What to do the week before the exam

Daily: 30–60 mins retrieval + practice questions
Rotate weak topics
Do timed questions
Sleep like it’s part of your grade (because it is)

The night before:

Light review only
Pack kit
No “I’ll just learn the whole of organic chemistry from scratch” heroics

A simple revision plan you can copy

Mon–Fri (60–90 mins):

10 mins: quick flashcard review
40 mins: weak topic retrieval + corrections
20 mins: exam questions (timed if possible)

Weekend (2 hours):

1 past-paper section (or 2 shorter sets)
Mark + make corrections
Make 5–10 flashcards from mistakes

Final thought

Effective revision is boring in the way that winning is boring.

It’s not about motivation.
It’s about a system that works even when you can’t be bothered.

And yes — you can absolutely do it without becoming a human highlighter.