Senior Secondary / High School
Sub Category
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
Grade 10 English
This video covers:
- What acceleration is
- The 2 equations for calculating acceleration
- Average and uniform acceleration
- Example questions
General info:
- Suitable for all GCSE and IGCSE courses
- Suitable for higher and foundation tiers
- Suitable for triple and combined science
Exam board specific info:
AQA - Everything is relevant to your course!
IGCSE Edexcel - Everything is relevant to your course!
Edexcel - Everything is relevant to your course!
OCR 21st Century - Everything is relevant to your course!
OCR Gateway - Everything is relevant to your course!
GCSE Chemistry playlist:
https://www.youtube.com/watch?v=fN8kH9Vvqo0&list=PLidqqIGKox7WeOKVGHxcd69kKqtwrKl8W
GCSE Biology Playlist:
https://www.youtube.com/watch?v=--dIBinUdeU&list=PLidqqIGKox7X5UFT-expKIuR-i-BN3Q1g
GCSE Physics Playlist:
https://www.youtube.com/watch?v=aHVJfRxeAxo&list=PLidqqIGKox7UVC-8WC9djoeBzwxPeXph7
This video covers:
- How to interpret distance-time graphs
- How to calculate speed on a distance-time graph
- What the gradient of the line means
- Drawing a tangent
General info:
- Suitable for all GCSE and IGCSE courses
- See below for whether it is higher or foundation tier for your exam board
- See below for whether it is triple or combined for your exam board
Exam board specific info:
AQA - Everything is relevant to your course!
IGCSE Edexcel - Separate science and higher tier only
Edexcel - Everything is relevant to your course!
OCR 21st Century - Everything is relevant to your course!
OCR Gateway - Everything is relevant to your course!
GCSE Chemistry playlist:
https://www.youtube.com/watch?v=fN8kH9Vvqo0&list=PLidqqIGKox7WeOKVGHxcd69kKqtwrKl8W
GCSE Biology Playlist:
https://www.youtube.com/watch?v=--dIBinUdeU&list=PLidqqIGKox7X5UFT-expKIuR-i-BN3Q1g
GCSE Physics Playlist:
https://www.youtube.com/watch?v=aHVJfRxeAxo&list=PLidqqIGKox7UVC-8WC9djoeBzwxPeXph7
This video covers:
- How to interpret velocity-time graphs
- How to calculate total distance travelled using a velocity-time graph
- What the gradient of the line means
General info:
- Suitable for all GCSE and IGCSE courses
- See below for whether it is higher or foundation tier for your exam board
- See below for whether it is triple or combined for your exam board
Exam board specific info:
AQA - Finding the distance using the area under the curve is triple and higher only - but everything else is good for everyone
IGCSE Edexcel - Separate science and higher tier only
Edexcel - Everything is relevant to your course!
OCR 21st Century - Finding the distance using the area under the curve is triple and higher only - but everything else is good for everyone
OCR Gateway - Finding the distance using the area under the curve is triple and higher only - but everything else is good for everyone
GCSE Chemistry playlist:
https://www.youtube.com/watch?v=fN8kH9Vvqo0&list=PLidqqIGKox7WeOKVGHxcd69kKqtwrKl8W
GCSE Biology Playlist:
https://www.youtube.com/watch?v=--dIBinUdeU&list=PLidqqIGKox7X5UFT-expKIuR-i-BN3Q1g
GCSE Physics Playlist:
https://www.youtube.com/watch?v=aHVJfRxeAxo&list=PLidqqIGKox7UVC-8WC9djoeBzwxPeXph7
23 GCSE physics equations song -learn all the equations in one song.
Lyrics and worksheets, plus the chance to become a SUPERFAN
https://www.patreon.com/LearnE....nglishwithBeatsResou
Lyrics
A car heading for the borderline.
distance travelled = speed × time
s = v t
You want to measure the acceleration?
acceleration=(change in velocity)/(time taken)
a=(Δ v)/t
Try to build the momentum properly.
momentum = m**** × velocity
p = m v
Turn on the speaker. It’s a song from Eminem.
wave speed = frequency × wavelength
v = f λ
Ain’t nobody as ‘phat’ as me.
weight = m**** × gravitational field strength g
W = m g
I use the force in this rap equation.
resultant force = m**** × acceleration
F = m a
pressure=(force normal to a surface)/(area of that surface)
p=F/A
There’s too much density in this whole tune.
density=m****/volume
ρ=m/V
23 Physics Equations.
We’ll take it one by one so have patience.
23 Physics Equations.
We’ll take it one by one so have patience.
A powerful quarterback runs on the touchline.
power=(work done)/time
P=W/t
Or
power=(energy transferred)/time
P=E/t
If we’re talking about transfers, then check this rhyme.
What football transfer would you like to happen, if you had infinite money to buy?
energy transferred = power × time
E = P t
Another way to get energy transferred, this physics equation I’m spitting.
energy transferred = charge flow × potential difference
E = Q V
My bars. I don’t charge at this current time.
charge flow = current × time
Q = I t
If you want to measure the potential difference.
potential difference = current × resistance
V = I R
Two more power equations all of a sudden.
power = potential difference × current
P = V I
Another equation for power. Sit back and listen.
power = (current)2 × resistance
P = I2 R
Chorus
In a factory, putting of a piston.
work done = force × distance along the line of action of the force
W = F s
You want to know the force applied to a spring?
force applied to a spring = spring constant × extension
F = k e
moment of a force = force × distance normal to direction of force
M = F d
The symbol is M = Fd but you knew that of course.
Efficiency is a mission to me but kinetic energy let’s do first.
kinetic energy = 0.5 × m**** × (speed)2
E_k=1/2 m
efficiecy=(useful output energy transfer)/(total input energy transfer)
Or
efficiecy=(total power output)/(total power input)
That’s 22 equations from your physics book.
One more to do before I spit the hook.
gravitational potential energy = m**** × gravitational field strength (g) × height
Ep = m g h
That’s 23 equations done. Good night.
Higher Physics - equations of motion. I derive all 4 equations of motion then go over some important points to remember when using them. Look out for the video of examples as well!
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My Website: http://physics-podcast.co.uk/
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Chapters...
0:00 Introduction
0:25 The letters in the equations - suvat
0:57 Derivation of v=u+at
1:42 Derivation of s=ut+½at²
2:50 Derivation of v²=u²+2as
3:57 Derivation of s=½(u+v)t
4:38 Example question
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