AQA GCSE PHYSICS 8463/1H PAPER 1 HIGHER TIER JUNE EXAM (AUTHENTIC MARKING SCHEME ATTACHED)

AQA GCSE PHYSICS 8463/1H PAPER 1 HIGHER
TIER JUNE EXAM H
(AUTHENTIC MARKING SCHEME ATTACHED)

GCSE
PHYSICS
Higher Tier Paper 1


Time allowed: 1 hour 45 minutes
Materials
For Examiner’s Use
For this paper you must have:
• a ruler Question Mark
• a scientific calculator
1
• the Physics Equations Sheet (enclosed).
2
Instructions 3
• Use black ink or black ball-point pen. Pencil should only be used for drawing. 4
• Fill in the boxes at the top of this page.
• Answer all questions in the spaces provided. 5
• Do not write outside the box around each page or on blank pages. 6
• Do all rough work in this book. Cross through any work you do not want to 7
be marked.
8
• If you need extra space for your answer(s), use the lined pages at the end of
this book. Write the question number against your answer(s). 9
• In all calculations, show clearly how you work out your answer. 10
11
Information
• The maximum mark for this paper is 100. TOTAL
• The marks for questions are shown in brackets.
• You are expected to use a calculator where appropriate.
• You are reminded of the need for good English and clear presentation in
your answers.

,*JUN2284631H01*
IB/H/Jun22/E12 8463/1H


Physics Equations Sheet
GCSE Physics (8463)
HT = Higher Tier only equations
1




1 2
kinetic energy = 0.5 × mass × (speed)2 Ek =
2
2
elastic potential energy = 0.5 × spring constant × (extension)2 Ee = 2 k e

gravitational potential energy = mass × gravitational field strength × height Ep = m g h

change in thermal energy = mass × specific heat capacity × temperature change ΔE = m c Δθ

energy transferred E
power = time P= t
work done W
power = time P= t

efficiency = useful output energy transfer
total input energy transfer

efficiency = useful power output
total power input

charge flow = current × time Q=It

potential difference = current × resistance V=IR

power = potential difference × current P=VI

power = (current)2 × resistance P=I2R
energy transferred = power × time E=Pt

energy transferred = charge flow × potential difference E=QV
mass m
density = volume ρ= V
Physics Equations
Sheet - GCSE
Physics (8463)

,Turn over ►

, thermal energy for a change of state = mass × specific latent heat E=mL

For gases: pressure × volume = constant p V = constant

weight = mass × gravitational field strength W=m

work done = force × distance (along the line of action of the force) W=Fs

force = spring constant × extension F=ke

moment of a force = force × distance (normal to direction of force) M=Fd

force normal to a surface F
pressure = area of that surface p=A
pressure due to a column of liquid =
HT height of column × density of liquid × gravitational field strength p=hρg

distance travelled = speed × time s=vt

change in velocity Δv
acceleration = time taken a= t

2 2
(final velocity)2 – (initial velocity)2 = 2 × acceleration × distance v –u =2as

resultant force = mass × acceleration F=ma

momentum = mass × velocity p=mv
HT
change in momentum m Δv
HT force = time taken F = Δt
1 1
period = frequency T= f
wave speed = frequency × wavelength v=f λ

image height
magnification = object height
force on a conductor (at right angles to a magnetic field) carrying a current =
F=BIl
magnetic flux density × current × length
HT
potential difference across primary coil number of turns in primary coil Vp n p
potential difference across secondary coil = number of turns in secondary coil V s = ns
HT
potential difference across primary coil × current in primary coil =
Vp I p = Vs I s
potential difference across secondary coil × current in secondary coil
HT