Physics
,Measurements and their errors
Always write in standard
form Precision is how close together repeated measurements
to allow other
significant figures to are to each &
be shown .
-
Accuracy is the closeness a measurement is to the true value
a
Systematic continuous trend
-
↓ .
error is an error
of
a
This is due to your accuracy -
a random error has no trend .
of yourfinal answer which
should be to the smallest
significant figure value in * half the instrument resolution (or wholeresolutiona
the question
M
*
.
/half the range of your repeat
The absolute uncertainty the interval
-
is results.
within which the true value can be
expected to lie. when adding subtracting values : add the uncertainty
When multiplying dividing Values : add the P Uncertainty
calculated value- true value
%0
difference
X100
= true Value
Instrument resolution is the Smallest scale an
certainty X
No uncertainty
100
mean value instrument can measure .
If there is a
power You
.
multiply by the power .
i readfirst
Learn the Slunits and :
prefixes
mass(kg) , length (n) time(s)
, ,
a mount of Substance
temperature(2) current(s)
,
-
Pregites +, G, M
:
, 1
,
c 2
, , 1, v P, f
see which line
watchesaa b
,
above.
, Waves Progressive transfer energy transferring
waves : without material
Wavelength-distance between the same points on two consecutive Waves .
c= 5) + wavelength
Amplitude-distance from equilibrium line to the maximum displacement ,
↓
Frequency - the number of waves that pass single point per second a .
wave frequency
speed
Period - Time taken for a whole wave to completely pass a
Single point I
medium a
substance/material that transmits a waves period =
energy
-
frequency
(T)
(6)
Transverse waves :
Longitudinal waves :
Oscillation of particles at right angles to the Oscillation of particles Parallel to the
direction of
energy transfer direction o
energy transfer
e EM travel at 3x108ms" in e sound >
requires medium
-
vacuum .
g
-
a
g
.
a
waves
.
. .
They have a trough They have
and peak .
compressions and rarefactions .
displacement
IIIIIIIIIIIIIII/III
2
I replie
a
either
time or position
or time period
Phase :
EM waves have both electric and The position of a
point on
certain a wave
cycle
magnetic fields at
right angles Phase Difference : How muchar a
particle wave lags behind another .
to each other .
Electric is usually Amplitude does not matter
Only shown .
-
Ensure you know each Two points are
completely out of phase When they are an odd integer of
wavelength name half cycles apart This . is is or 1800
Phase is
usually measured in radians .
Polarisation : (note :
only possible for transverse)
A
an unpolarised
these oscillations
wave
are in
is where
all Orientations
complex
Problem
*
7 An unpolarised light wave enters T.A. 1.
TA
.
↑
-
a The wave then passes through T.A. 2 which is rotating slowly. Plot
ve
a
plane polarised wave is one where the light intensity released visible from after T.A. 2.
these oscillations are in one orientations
(cos()
13
TA
. .
=
Transmission axis
=
T A x-axis
- . .
un Material dispersion
is due to
different As I cose light interity at point
optics
=
7
- Wavelengths having different and
light intensity cannot be negative ,
speeds due to different
1
refractive indices in the core. modal dispersion is the
refractive glass
index of core
>
prevents
- cladding Change in the
different paths
must be higher than cladding. the light takes
L Crosstalk' where along thefibre
Wave
↓ light would enter other from side
Problem , cora must vibres m
be also
narrow to reduce use single wavelength to stop
possible paths for light to take the wavelengths dispersing slightly 111111111
wave from top
,Measurements and their errors
Always write in standard
form Precision is how close together repeated measurements
to allow other
significant figures to are to each &
be shown .
-
Accuracy is the closeness a measurement is to the true value
a
Systematic continuous trend
-
↓ .
error is an error
of
a
This is due to your accuracy -
a random error has no trend .
of yourfinal answer which
should be to the smallest
significant figure value in * half the instrument resolution (or wholeresolutiona
the question
M
*
.
/half the range of your repeat
The absolute uncertainty the interval
-
is results.
within which the true value can be
expected to lie. when adding subtracting values : add the uncertainty
When multiplying dividing Values : add the P Uncertainty
calculated value- true value
%0
difference
X100
= true Value
Instrument resolution is the Smallest scale an
certainty X
No uncertainty
100
mean value instrument can measure .
If there is a
power You
.
multiply by the power .
i readfirst
Learn the Slunits and :
prefixes
mass(kg) , length (n) time(s)
, ,
a mount of Substance
temperature(2) current(s)
,
-
Pregites +, G, M
:
, 1
,
c 2
, , 1, v P, f
see which line
watchesaa b
,
above.
, Waves Progressive transfer energy transferring
waves : without material
Wavelength-distance between the same points on two consecutive Waves .
c= 5) + wavelength
Amplitude-distance from equilibrium line to the maximum displacement ,
↓
Frequency - the number of waves that pass single point per second a .
wave frequency
speed
Period - Time taken for a whole wave to completely pass a
Single point I
medium a
substance/material that transmits a waves period =
energy
-
frequency
(T)
(6)
Transverse waves :
Longitudinal waves :
Oscillation of particles at right angles to the Oscillation of particles Parallel to the
direction of
energy transfer direction o
energy transfer
e EM travel at 3x108ms" in e sound >
requires medium
-
vacuum .
g
-
a
g
.
a
waves
.
. .
They have a trough They have
and peak .
compressions and rarefactions .
displacement
IIIIIIIIIIIIIII/III
2
I replie
a
either
time or position
or time period
Phase :
EM waves have both electric and The position of a
point on
certain a wave
cycle
magnetic fields at
right angles Phase Difference : How muchar a
particle wave lags behind another .
to each other .
Electric is usually Amplitude does not matter
Only shown .
-
Ensure you know each Two points are
completely out of phase When they are an odd integer of
wavelength name half cycles apart This . is is or 1800
Phase is
usually measured in radians .
Polarisation : (note :
only possible for transverse)
A
an unpolarised
these oscillations
wave
are in
is where
all Orientations
complex
Problem
*
7 An unpolarised light wave enters T.A. 1.
TA
.
↑
-
a The wave then passes through T.A. 2 which is rotating slowly. Plot
ve
a
plane polarised wave is one where the light intensity released visible from after T.A. 2.
these oscillations are in one orientations
(cos()
13
TA
. .
=
Transmission axis
=
T A x-axis
- . .
un Material dispersion
is due to
different As I cose light interity at point
optics
=
7
- Wavelengths having different and
light intensity cannot be negative ,
speeds due to different
1
refractive indices in the core. modal dispersion is the
refractive glass
index of core
>
prevents
- cladding Change in the
different paths
must be higher than cladding. the light takes
L Crosstalk' where along thefibre
Wave
↓ light would enter other from side
Problem , cora must vibres m
be also
narrow to reduce use single wavelength to stop
possible paths for light to take the wavelengths dispersing slightly 111111111
wave from top
