Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Level Physics Induction, 28 th June, Outline of the course You are operating under a new specification. The course is linear, which means you.

Published byNathaniel O’Neal’ Modified over 7 years ago

Similar presentations

Presentation on theme: "A Level Physics Induction, 28 th June, Outline of the course You are operating under a new specification. The course is linear, which means you."— Presentation transcript:

1 A Level Physics Induction, 28 th June, 2016

2 Outline of the course You are operating under a new specification. The course is linear, which means you will sit: – Two exams at the end of your AS course (these will not count towards your final grade) – Three exams at the end of your A2 course – You will also receive a practical certificate of competence

3 Outline of the AS course Topics covered at AS 1.Particles and radiation 2.Quarks and leptons 3.Quantum phenomena 4.Waves 5.Optics 6.Vectors and scalers 7.Mechanics and materials 8.On the move 9.Newton’s laws of motion 10.Force and momentum 11.Work, energy and power 12.Materials 13.Electric current 14.DC circuits Paper 1 – all content Assessed Written exam: 1 hour 30 minutes 70 marks 50% of AS Questions: Short and long answers split by topic Paper 2 – all content Assessed Written exam: 1 hour 30 minutes 70 marks 50% of AS Questions: Section A: 20 marks of short and long answers on practical skills and data analysis Section B: 20 marks of short and long answers from across all topics Section C: 30 multiple choice questions

4 Outline of the A2 course Topics covered 1.Periodic motion (further mechanics) 2.Thermal physics 3.Fields and their consequences 4.Nuclear physics Plus 1 from the following: 1.Astrophysics 2.Medical physics 3.Engineering physics 4.Turning points in physics 5.Electronics Paper 1 What’s assessed? All AS material and Periodic motion Assessed Written exam: 2 hours 85 marks 34% of A2 Questions: 60 marks of short and long answers and 25 multiple choice questions on content

5 Outline of the A2 course Topics covered 1.Periodic motion (further mechanics) 2.Thermal physics 3.Fields and their consequences 4.Nuclear physics Plus 1 from the following: 1.Astrophysics 2.Medical physics 3.Engineering physics 4.Turning points in physics 5.Electronics Paper 2 What’s assessed? Thermal physics, fields and nuclear physics Assessed Written exam: 2 hours 85 marks 34% of A2 Questions: 60 marks of short and long answers and 25 multiple choice questions on content

6 Outline of the A2 course Topics covered 1.Periodic motion (further mechanics) 2.Thermal physics 3.Fields and their consequences 4.Nuclear physics Plus 1 from the following 1.Astrophysics 2.Medical physics 3.Engineering physics 4.Turning points in physics 5.Electronics Paper 3 What’s assessed? Section A: Compulsory section – practical skills and data analysis Section B: Students enter for one of the additional sections 1 - 5 Assessed Written exam: 2 hours 80 marks 32% of A2 Questions: 45 marks of short and long answer questions on practical experiments and data analysis 35 marks of short and long answer questions on optional topic

7 Stationary Requirements For the course, you will need the following: – A4 Ring binder(s) (Lever arch) – A4 Folder dividers – Scientific calculator – Pens, pencils, ruler – Protractor – Set square – AQA Physics Textbook, we will provide you with this and handouts

8 suvat a = (v – u) t v = stst

9 Equation for displacement… v = stst

10 Draw a graph for the following data time/sVelocity/ms-1 05 16 27 38 49 510 611 712 813 914 1015

11 Now calculate the displacement Area under line Time/s Velocity/ms-1 Area of a trapezium s = (v + u)t 2

12 s = t (v + u) 2

13 Example A car has an initial velocity of 4ms -1 and a final velocity of 6ms -1, calculate the displacement after 15 seconds. s = x 15 (6 + 4) 2 S = 75m

14 a = (v – u) t becomes v = u + at

15 A bike accelerates at a rate of 1.2ms -2 from rest in 13.5 seconds. Calculate the final velocity v = u + at v = 0 + (1.2 x 13.5) v = 16.2 ms -1

16 How else to calculate v? Lets look at the following: s = t (v + u) 2 And a = (v – u) t v 2 = u 2 + 2as

17 Calculating s (another way) v = u + at And s = t (v + u) 2 s = ut + ½at 2

18 suvat s = vt - ½at 2 s = ut + ½at 2 v 2 = u 2 + 2as s = t (v + u) 2 a = (v – u) t u = v - at v = u + at

19 Questions 1.A train is uniformly decelerated from 35ms -1 to 21ms -1 over a distance of 350m. Calculate the deceleration and the time taken to come to a rest from the 35ms -1. 2.Initial velocity is 5ms -1, final velocity is 36kmh -1 acceleration is 1.25ms -2. Distance?

20 Bridging work You are to research into the LHC at CERN. – What is it? – What type of accelerator is it? – What they are trying to prove? – How is Science advancing because of it?

21 Final Tips Ensure you purchase your stationery before arriving in September, (2 x lever arch files, dividers, stapler, calculator) File notes after EVERY lesson Read ahead – we will tell you what chapter to read in advance

Download ppt "A Level Physics Induction, 28 th June, Outline of the course You are operating under a new specification. The course is linear, which means you."

Similar presentations

PHYSICS CHICHESTER HIGH SCHOOLS SIXTH FORM AS and A2 level.

PHYSICS CHICHESTER HIGH SCHOOLS SIXTH FORM AS and A2 level.
Kinematics in 1 dimension with constant acceleration Lesson Objective: The ‘suvat’ equations Consider a point mass moving along a line with a constant.

Kinematics in 1 dimension with constant acceleration Lesson Objective: The ‘suvat’ equations Consider a point mass moving along a line with a constant.
Scalar quantities have magnitude only. Vector quantities have magnitude and direction. Examples are: Scalar quantities: time, mass, energy, distance, speed.

Scalar quantities have magnitude only. Vector quantities have magnitude and direction. Examples are: Scalar quantities: time, mass, energy, distance, speed.
ITC242 – Introduction to Data Communications ITC431 – Computer Networks Week 13 Exam Preparation.

ITC242 – Introduction to Data Communications ITC431 – Computer Networks Week 13 Exam Preparation.
Physics Physics is the study of the laws of nature that govern the behaviour of the universe, from the very smallest scales of sub-atomic particles to.

Physics Physics is the study of the laws of nature that govern the behaviour of the universe, from the very smallest scales of sub-atomic particles to.
Copyright © 2015 Chris J Jewell 1 Mechanics M1 (Slide Set 4) Linear Motion (Constant Acceleration) Mechanics M1.

Copyright © 2015 Chris J Jewell 1 Mechanics M1 (Slide Set 4) Linear Motion (Constant Acceleration) Mechanics M1.
Physics Lawrence Free State HS. Oather Strawderman Grew up in the Air Force Wichita South HS grad Bachelors and Masters in Science Education from KU Additional.

Physics Lawrence Free State HS. Oather Strawderman Grew up in the Air Force Wichita South HS grad Bachelors and Masters in Science Education from KU Additional.
Physics La Cañada High School “Dr. E” Mark Ewoldsen, Ph.D.

Physics La Cañada High School “Dr. E” Mark Ewoldsen, Ph.D.
BTEC National Subsidiary Diploma in IT Induction, 25 th June, 2015.

BTEC National Subsidiary Diploma in IT Induction, 25 th June, 2015.
Mathematics G.C.S.E.

Mathematics G.C.S.E.
Mechanics Physics12 Equations, relative motion & relative motion Mechanics Physics12 Equations, relative motion & relative motion Equations of motion.

Mechanics Physics12 Equations, relative motion & relative motion Mechanics Physics12 Equations, relative motion & relative motion Equations of motion.
Physics 2a = Motion and Forces Speed and Velocity and acceleration Prior learning Definition and equation for speed Key words –Speed, distance, time, velocity,

Physics 2a = Motion and Forces Speed and Velocity and acceleration Prior learning Definition and equation for speed Key words –Speed, distance, time, velocity,
Grade 10 Physics Welcome 10Sc1! What is physics (again)?

Grade 10 Physics Welcome 10Sc1! What is physics (again)?
Welcome to A Level Physics. Course Content  Core content – Year 1 of A level/ AS Physics 1. Measurements and their errors 2. Particles and radiation.

Welcome to A Level Physics. Course Content  Core content – Year 1 of A level/ AS Physics 1. Measurements and their errors 2. Particles and radiation.
Motion Recognizing, Describing, and Measuring Motion.

Motion Recognizing, Describing, and Measuring Motion.
 AP Physics is the one of the final science credits offered by Forsyth Central. After taking Honors/AP Biology and Chemistry, students will find themselves.

 AP Physics is the one of the final science credits offered by Forsyth Central. After taking Honors/AP Biology and Chemistry, students will find themselves.
AP Physics 1. What is AP Physics 1? First year physics course intended to be equivalent to a college introductory physics course.

AP Physics 1. What is AP Physics 1? First year physics course intended to be equivalent to a college introductory physics course.
Chapter 2 Describing Motion: Kinematics in One Dimension.

Chapter 2 Describing Motion: Kinematics in One Dimension.
HST 2001 Spain Physics Syllabuses Physics in the Spanish curriculum (Secondary Education: Ages 12 - 18) Compulsory Secondary Education Ages 12 –16 Upper.

HST 2001 Spain Physics Syllabuses Physics in the Spanish curriculum (Secondary Education: Ages ) Compulsory Secondary Education Ages 12 –16 Upper.
Notes 9-3 Acceleration. Rate velocity changes with time Vector quantity In science, acceleration refers to increasing speed, decreasing speed, or changing.

Notes 9-3 Acceleration. Rate velocity changes with time Vector quantity In science, acceleration refers to increasing speed, decreasing speed, or changing.

Similar presentations

Ads by Google