1. Measurements and Their Errors

Question 1

What are SI units?

Answer 1

Fundamental (base) units of physical quantities

Question 2

What is the SI unit of mass?

Answer 2

Kg (kilogram)

Question 3

What physical quantity is measured in mol?

Answer 3

Amount of substance

Question 4

What is the SI unit of current?

Answer 4

Amperes (A)

Question 5

Is the SI unit for temperature ℃ or K ?

Answer 5

K (kelvin) as this is the absolute scale

Question 6

What is the SI unit of length?

Answer 6

Metres (m)

Question 7

What quantity is measured in seconds?

Answer 7

Time

Question 8

Are Newtons (N) an SI unit?

Answer 8

No, newtons are not fundamental, the SI units for force are kgms^-2.

Question 9

Derive the SI units of energy

Answer 9

Kinetic energy = ½ x mass x velocity squared

Units = kg x (m/s) x (m/s) = kgm^2s^-2

Question 10

Derive the SI units of force

Answer 10

Force = mass x acceleration
Units = kg x ms^-2 = kgms^-2

Question 11

Express 60TΩ in standard form

Answer 11

6 x 10^13

T is tera and the multiplier is 10^12

Question 12

Write 0.000003m with a suitable prefix

Answer 12

3µm

Question 13

What is the actual value of 8MΩ?

Answer 13

8,000,000Ω or 8x10^6Ω

Question 14

What is 6000pF in nF?

Answer 14

6nF as 1 nano unit is 1000 pico units

Question 15

What multiplier is associated with the prefix kilo (k)?

Answer 15

1000 (10^3)

Question 16

What multiplier is associated with the prefix femto (f)?

Answer 16

10^-15

Question 17

Express 7GΩ is standard form

Answer 17

7 x 10^9 Ω

Question 18

What is 1 eV in J?

Answer 18

1eV= 1.6 x 10^-19 J

Question 19

Express 6kWh in joules

Answer 19

6 kW = 6000 J/s 
1 hour = 3600s
6kWh = 6000 x 3600
 = 21.6 x 10^6 J
 = 21.6 MJ

Question 20

Convert 6.6pJ to eV

Answer 20

6.6pJ = 6.6 x 10^-12 J
Divide by 1.6 x 10^-19
6.6pJ = 4.1 x 10^7 eV (2sf)
=41MeV

Question 21

What is a random error?

Answer 21

An error that affects precision and cannot be completely removed, it causes differences in measurements.

Question 22

What is a systematic error?

Answer 22

An error that affects accuracy and occurs due to faults in equipment or experimental method, causing the result to be too large / small by the same amount each time

Question 23

What are 3 ways to reduce random error?

Answer 23

● Take at least 3 repeats and calculate a mean.
● Use a computer or a data logger.
● Use higher resolution equipment.

Question 24

A mass balance reads 1004 g when a 1kg mass is placed on it, is this a random or systematic error?

Answer 24

Systematic as the reading is too high by 4g each time

Question 25

State a cause of parallax error.

Answer 25

Reading a scale at a different angle each time, to correct this you should read scales at eye level to reduce parallax error.

Question 26

How can systematic error be reduced?

Answer 26

Calibrate apparatus before using e.g. zero the balance when it is empty

Question 27

Is electronic noise in the circuit of an ammeter random error or systematic error?

Answer 27

It is a random error as it will cause fluctuations in readings that affect precision and it cannot be removed.

Question 28

Why should you measure background radiation before measuring the radioactivity of a source?

Answer 28

So that only the source’s radioactivity is measured, by accounting for background radiation systematic error is reduced.

Question 29

What is precision?

Answer 29

Precise measurements are consistent, they fluctuate slightly about a mean value - this doesn’t indicate the value is accurate.

Question 30

What is repeatability?

Answer 30

If the original experimenter can redo the experiment with the same equipment and method then get the same results it is repeatable.

Question 31

What is reproducibility?

Answer 31

If the experiment is redone by a different person or with different techniques and equipment and the same results are found, it is reproduceable.

Question 32

What is meant by resolution?

Answer 32

The smallest change in the quantity being measured that gives a recognisable change in reading.

Question 33

What is meant if a value is accurate?

Answer 33

If the value is close to the true value.

Question 34

What is absolute uncertainty?

Answer 34

Uncertainty given as a fixed quantity e.g. 7 +/- 0.6 V

Question 35

What is the percentage uncertainty in 17 +/- 3 A ?

Answer 35

3/17 x 100 = 17.647 %

= 18 % (2sf)

Question 36

What is the fractional uncertainty of 8 +/- 0.5 m?

Answer 36

0.5/8 = 1/16 (0.0625)

Question 37

How can percentage and fractional uncertainty be reduced?

Answer 37

Measure larger quantities e.g. a longer rope will have a smaller percentage uncertainty than a shorter one.

Question 38

The time for 10 swings of a pendulum is 13 +/- 0.3s, what is the time and uncertainty for 1 swing?

Answer 38

1 swing = 13/10 = 1.3s
Uncertainty = 0.3/10 = 0.03 s
Time = 1.3 +/- 0.03 s

Question 39

What is the difference between a reading and a measurement?

Answer 39

Readings are when one value is found, measurements are when the difference between 2 readings is found.

Question 40

What is the uncertainty of a thermometer whose smallest division is 5℃?

Answer 40

The uncertainty in a reading is ± half the smallest division, so the uncertainty is ± 5/2 or ± 2.5 ℃

Question 41

What is the percentage uncertainty in the measurement of a 2cm line?

Answer 41

Each end has uncertainty ±0.5mm, 0.5 + 0.5= 1 so uncertainty in the measurement = ±1mm
% uncertainty = 1/20 x 100 = 5% (2cm is 20mm)
2 ± 5% cm

Question 42

What is the uncertainty in the charge of an electron (1.6 x 10^-19C)?

Answer 42

The uncertainty in a given value is ± the last significant digit:
= 1.6 x 10^-19 ± 0.1 x 10^-19 C

Question 43

The times for a ball to drop are measured as 3.2s 3.6s and 3.1s. Find the mean and absolute uncertainty of these times.

Answer 43

Mean : 3.2+3.6+3.1=9.9 9.9/3 = 3.3 s

Uncertainty = half the range (3.6-3.1) / 2 = 0.25 = 3.3 ± 0.3s

Question 44

What is wrong with writing 7±0.673 V?

Answer 44

The uncertainty should be the same number of significant figures as the data ie. 7± 0.7V.

Question 45

A thermometer with an uncertainty of 0.5 K shows the temperature of water falling from 298±0.5 K to 273±0.5K, what is the difference in temperature and the uncertainty in this difference?

Answer 45

298 - 273 = 25K 0.5 + 0.5 = 1K
(when adding or subtracting data, add absolute uncertainties).
Difference = 25±1 K

Question 46

A force of 91±3 N is applied to a mass of 7±0.2 kg, what is the acceleration of the mass?

Answer 46

When multiplying/dividing data add percentage uncertainties
a = F / m = 91 / 7 = 13 ms^-2
% uncertainty = (0.2 / 7) x 100 + (3 / 91) x 100
=6 .2%
a = 13 ± 6.2%

Question 47

The radius of a circle is 5 +/- 0.3 cm, what is the percentage uncertainty in the area of the circle?

Answer 47

When a value is raised to a power, multiply the % uncertainty by the power.
Area = π x 25 = 78.5 cm^2
Area = πr^2
% uncertainty in radius = 0.3/5 x 100 = 6%
% uncertainty in area = 6 x 2 (2 is the power from r^2) = 12%
78.5 12% cm^2

Question 48

When drawing a line of best fit on a graph with error bars what must you do?

Answer 48

Make sure the line of best fit goes through all the error bars.

Question 49

How do you find the uncertainty in the gradient of a line of best fit?

Answer 49

Draw a steepest or shallowest line of worst fit, it must go through all the error bars.
Calculate the gradient of the best and worst line, the uncertainty is the difference between the best and worst gradients.

Question 50

How can you find the percentage uncertainty in the gradient of a line of best fit?

Answer 50

Percentage uncertainty =

| best gradient-worst gradient | / best gradient x 100

Question 51

How do you work out the uncertainty in the y - intercept of a line of best fit?

Answer 51

Draw a best and worst line of fit, you can find the uncertainty in the y - intercept by:
| best y-intercept - worst y-intercept |

Question 52

How do you find the percentage uncertainty in a y intercept?

Answer 52

percentage uncertainty =
| best y-intercept - worst y-intercept |
/ best y intercept x 100

Question 53

What is an order of magnitude?

Answer 53

Powers of ten which describe the size of an object, and which can also be used to compare the sizes of objects.

Question 54

What is the order of magnitude for the diameter of a nucleus?

Answer 54

10^-15

Question 55

What is estimation?

Answer 55

A skill physicists must use in order to approximate the values of physical quantities, in order to make comparisons, or to check if a value they’ve calculated is reasonable.

Question 56

What is 9.71 x 10^-21 to the nearest order of magnitude?

Answer 56

It is 1x10^-20 to 1sf.

So the nearest order of magnitude is 10^-20.