Physics and Measurement

• Model• Theory• Observation• Law• Empirical Law

What is physics?Why do we study it?

Significant Digits• 23.21 m• 0.062 m• 8200 m

26.2x10 m

Scientific notation helps!!!

2Area 0.062 m 23.21 m 1.43902 m

• The final result of multiplication or division can have only as many significant digits as the component factor with the least number of significant figures

• The final result for addition or subtraction can have no more decimal places than the term with the least number of decimal places

2Area 1.4 m

Perimeter = 46.54 m

Base Units

Redefining the meter:

In 1792 the unit of length, the meter, was defined as one-millionth the distance from the north pole to the equator.

Later, the meter was defined as the distance between two finely engraved lines near the ends of a standard platinum-iridium bar, the standard meter bar. This bar is placed in the International Bureau of Weights and Measures near Paris, France.

In 1960, the meter was defined to be 1 650 763.73 wavelengths of a particular orange-red light emitted by krypton-86 in a discharge tube that can be set anywhere in the world.

In 1983, the meter was defined as the length of the path traveled by light in a vacuum during the time interval of 1/299 792 458 of a second. The speed of light is then exactly 299 792 458 m/s.

Typical Lengths

Typical Masses

What is Density?V

m

Typical Times

Three unit systems

Physical Quantity

Dimensional Symbol

UnitSystem

SI MKS SI CGS USCustomary

Length [L] m cm ft

Mass [M] kg g

Time [T] s s s

Three unit systems

Physical Quantity

Dimensional Symbol

UnitSystem

SI MKS SI CGS USCustomary

Length [L] m cm ft

Mass [M] kg g slug

Time [T] s s s

Unit conversion

A BA

1B

C 1 C

1 kg 2.2 lb 1 kg1

2.2 lb

1 kg200 lb 90.9 kg

2.2 lb

Metric Prefixes

Dimensional (unit) Analysis

21x at

2

22

1 L[L] [ ][T ] [L]

2 T

If your units do not work out, your answer cannot be correct!

Sometimes you can figure out the correct equation merely by making the units work!

Estimating

• Often we are looking for order of magnitude numbers.

• Is the number 1, 10, 100, 1000, 10000?• Make assumptions. We will have some

standard assumptions:– Surfaces are frictionless (at first)– Strings have no mass– Objects are all treated as if their mass is at a point in

space– Pulley wheels have no mass– Forces from springs are linear with displacement

Example

• Enrico Fermi • Nothing to do with Physics• Shows the power of order of magnitude estimates

• How many piano tuners are in San Francisco?

(800,000 people in San Francisco)

Lab Data Recording

And Calculating

Uncertainty

• Precision = Repeatability• Accuracy = Correctness

measurement = best measured value uncertainty

uncertaintypercent uncertainty = 100%

best measured value

uncertaintyfractional uncertainty =

best measured value

Propagating Uncertainty

• Addition/Subtraction: Add the uncertainty in the individual terms

• Multiplication/Division:– Add the fractional uncertainties of the factors

– Use extreme values of factors and subtract

If C=A+B, Then C= A+ B

C A BIf C=AB, Then = +

C A B

If C=AB, Then C= A+ A B+ B A - B

What does it mean to agree?

5.0

0.5

0.5

4.8

0.25

0.25

Measurement A Measurement B

Do Measurements A and B agree?

What does it mean to agree?

5.0

0.5

0.5

4.2

0.25

0.25

Measurement A Measurement B

Do Measurements A and B agree?

What does it mean to agree?

5.0

0.5

0.5

4.6

0.25

0.25

Measurement A Measurement B

Do Measurements A and B agree?

What does it mean to agree?

5.0

0.5

0.5

4.4

0.25

0.25

Measurement A Measurement B

Do Measurements A and B agree?