A-Level Course Notes: PHYSICS SECTION I: General Physics
SECTION I General Physics CIE A-Level [AS and A2]
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Course Notes
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A-Level Course Notes: PHYSICS SECTION I: General Physics
Syllabus Details______________________
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A-Level Course Notes: PHYSICS SECTION I: General Physics
1. Physical Quantities and Units_______________ Content 1.1 Physical quantities [AS] 1.2 SI Units [AS] 1.3 The Avogadro constant [A2] 1.4 Scalars and vectors [AS] Learning outcomes_____________________________________ Candidates should be able to: (a) show an understanding that all physical quantities consist of a numerical magnitude and a unit
From the syllabus...
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A-Level Course Notes: PHYSICS SECTION I: General Physics
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A-Level Course Notes: PHYSICS SECTION I: General Physics
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(b) recall the following SI base quantities and their units: mass (kg), length (m), time (s), current (A), temperature (K), amount of substance (mol) Base Quantity length mass time electric current temperature amount of substance
Unit meter kilogram second ampere kelvin mole
Symbol m kg s A K mol
(c) express derived units as products or quotients of the SI base units and use the named units listed in this syllabus as appropriate Example of derived units
(d) use SI base units to check the homogeneity of physical equations
Each side of an equation must have the same base units F
=
[N] = -2 [mkgs ] = DIPONT Educational Resource - Science
m [kg] [kg]
x
a [ms-2] [ms-2] 6
A-Level Course Notes: PHYSICS SECTION I: General Physics
(e) show an understanding of and use the conventions for labelling graph axes and table columns as set out in the ASE publication Signs, Symbols and Systematics (The ASE Companion to 16–19 Science, 2000) CONVENTIONS FOR TABLES (From the syllabus)
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A-Level Course Notes: PHYSICS SECTION I: General Physics
CONVENTIONS FOR GRAPHS (From the syllabus)
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(f) use the following prefixes and their symbols to indicate decimal submultiples or multiples of both base and derived units: pico (p), nano (n), micro (μ), milli (m), centi (c), deci (d), kilo (k), mega (M), giga (G), tera (T)
(g) make reasonable estimates of physical quantities included within the syllabus Remember: an estimate does not have to be exactly correct and often just expresses an order of magnitude. e.g. The mass of universe is ~1050 kilograms (h) show an understanding that the Avogadro constant is the number of atoms in 0.012 kg of carbon-12 The Avogadro number:
The number of atoms in 0.012kg of carbon-12. It is 6.02x1023
(i) use molar quantities where one mole of any substance is the amount containing a number of particles equal to the Avogadro constant Mole:
One mole of a substance is the amount of that substance that contains the same number of atoms as 0.012kg of carbon-12. Molar Mass: The mass of one mole of a substance is called the molar mass. DIPONT Educational Resource - Science
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(j) distinguish between scalar and vector quantities and give examples of each Vector: Scalar:
Quantity with both magnitude and direction Quantity with only magnitude
(k) add and subtract coplanar vectors
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(l) represent a vector as two perpendicular components.
SEE PHET SIM
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A-Level Course Notes: PHYSICS SECTION I: General Physics
2. Measurement Techniques___________________ Content 2.1 Measurements 2.2 Errors and uncertainties Learning outcomes_____________________________________ Candidates should be able to: (a) use techniques for the measurement of length, volume, angle, mass, time, temperature and electrical quantities appropriate to the ranges of magnitude implied by the relevant parts of the syllabus. In particular, candidates should be able to: • measure lengths using a ruler, vernier scale and micrometer
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A-Level Course Notes: PHYSICS SECTION I: General Physics
When using a ruler, be careful of parallax errors
• measure weight and hence mass using spring and lever balances • measure an angle using a protractor • measure time intervals using clocks, stopwatches and the calibrated timebase of a cathode-ray oscilloscope (c.r.o.) • measure temperature using a thermometer as a sensor • use ammeters and voltmeters with appropriate scales • use a galvanometer in null methods
A Galvanometer is a current measuring meter that can be used in two ways…
With a resistor in series to measure voltage With a resistor in parallel to measure current
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A-Level Course Notes: PHYSICS SECTION I: General Physics
• use a cathode-ray oscilloscope (c.r.o.)
KEY CONTROLS….
Time base: Time taken for beam to pass through one horizontal division [Sec/div] Vertical amplifier gain: The vertical scale control [Volts/div] • use a calibrated Hall probe
Basic Structure of a Hall probe…
A small piece of semi-conductor material placed perpendicular to the magnetic field A current is paced through the semi-conductor A voltage (Hall voltage) is measured which is proportional to the magnetic flux density
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(b) use both analogue scales and digital displays
(c) use calibration curves
Record value from instrument Use calibration curve to read off the corrected “real” value
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(d) show an understanding of the distinction between systematic errors (including zero errors) and random errors
Random Errors: Errors that can not be predicted. Systematic Errors: Errors which are the same for each measurement (e) show an understanding of the distinction between precision and accuracy Precision: Accurate:
Small random error Small systematic error
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A-Level Course Notes: PHYSICS SECTION I: General Physics
(f) assess the uncertainty in a derived quantity by simple addition of actual, fractional or percentage uncertainties (a rigorous statistical treatment is not required). Absolute uncertainty: Fractional uncertainty: Percentage uncertainty:
Size of an error and its units Absolute uncertainty / measurement Fractional uncertainty x 100%
Addition and Subtraction 5.9 ±0.6m + 3.9 ±0.8m = 9.8 ±1.4m (add absolute errors) 6.9 ±0.6m - 3.9 ±0.8m = 3.0 ±1.4m (add absolute errors) Multiplication and Division 5.6 ±0.5m x 2.6 ±0.5m = 15 ±??m 0.5 / 5.6 = 0.089
0.5 / 2.6 = 0.19
Sum of relative errors = 0.28 Absolute error = 0.28 x 15 = 4.2m FINAL ANSWER = 15 ±4 m
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A-Level Course Notes: PHYSICS SECTION I: General Physics
Background Reading_________________ PHYSICS, Giancoli 6th edition, Chapter 1
Useful Websites______________________ http://phet.colorado.edu/en/simulations/category/new http://www.s-cool.co.uk/alevel/physics.html http://www.physicsclassroom.com/mmedia/index.cfm http://www.phys.hawaii.edu/~teb/java/ntnujava/index.html http://www.colorado.edu/physics/2000/index.pl
Constants___________________________ [These are given on each test paper]
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