Physics Equation List :Form 5 Wave Oscillation T f 1 = Displacement-Time Graph f = frequency (Hz or s-1) T = Period (s) • Amplitude, Period and Freque...
Physics Equation List :Form 4 Introduction to Physics Relative Deviation Relative Deviation = 100%Mean Deviation Mean Value
Date:______. Wave Speed Equation Practice Problems. The formula we are going to practice today is the wave speed equation: wave speed = wavelength* frequency v = λf. Variables, units, and symbols: Quantity. Symbol. Quantity. Term. Unit. Unit. Symbol
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Midterm1_extra_Spring04. Two bodies, m1= 1kg and m2=2kg are connected over a massless pulley. The coefficient of kinetic friction between m2 and the incline is 0.1. The angle θ of the incline is 20º. Calculate: (a) Acceleration of the blocks. (b) Ten
National 5 Physics Course Support Notes This document may be reproduced in whole or in part for educational purposes provided that no profit is
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Chemical Equation Worksheet Write, complete, and balance the following equations using phase notation. 1) sulfur dioxide + water Æ 2) ammonium nitrite Æ
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ONE-SCHOOL.NET
Physics Equation List :Form 5 Wave Oscillation
1 f = T
f = frequency T = Period
(Hz or s-1) (s)
Displacement-Time Graph
•
Amplitude, Period and Frequency can be found from a Displacement-Time Graph
Wave
v= fλ
v = velocity f = frequency λ = wavelength
Displacement-Distance Graph
λ = Wavelength
http://www.one-school.net/ notes.html
1
(ms-1) (Hz or s-1) (m)
ONE-SCHOOL.NET Interference
λ = Wavelength
ax λ= D
a = Distance between the two wave sources x = Distance between two successive anti-node lines or node lines D = Distance from the wave sources to the plane where x is measured.
Summary
Electricity Sum of charge
Q = ne
Q = Charge n = number of charge particles e = charge of 1 particle
Current
Q I= t
http://www.one-school.net/ notes.html
Q = Charge I = Current t = time
2
ONE-SCHOOL.NET Potential Difference
W V= Q
V = potential difference, W = energy Q = charge
(V or JC-1) (J) (C)
V = potential difference, I = Current R = Resistance
(V or JC-1) (A or Cs-1) (Ω)
Ohm’s Law and Resistance
V = IR Resistance
R=(
R = R1 + R2
1 1 1 + + ) −1 R1 R2 R3
Current Series Circuit
Parallel Circuit
The current flow into a resistor = the current flow inside the resistor = the current flows out from the The current flow into a parallel circuit is equal to the resistor sum of the current in each branches of the circuit. IA = IB = IC I = I1 + I2 Example
If the resistance of the 2 resistors is the same, current will be divided equally to both of the resistor.
In a series circuit, the current at any points of the circuit is the same.
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3
ONE-SCHOOL.NET Potential and Potential Difference Series Circuit
Parallel Circuit
The sum of the potential difference across individual resistor in between 2 points in a series circuit is equal to the potential difference across the two point. The potential difference across all the resistor in a parallel circuit is the same.
V = V1 + V2 Example
V = V1 = V2 Example
Potential Difference and Electromotive Force
If we assume that there is no internal resistance in the cell, the potential difference across the cell is equal to the e.m.f. of the cell.
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4
ONE-SCHOOL.NET Electromotive Force and Internal Resistance
E = I (R + r)
E = V + Ir
or
E = Electromotive Force r = internal resistance V = potential difference, I = Current R = Resistance
(V) (Ω ) (V or JC-1) (A or Cs-1) (Ω)
2 methods to find the internal resistance and electromotive force a. Open Circuit – Close Circuit method Open Circuit Close Circuit
In open circuit ( when the switch is off), the In close circuit ( when the switch is on), the voltmeter shows the reading of the e.m.f. voltmeter shows the reading of the potential difference across the cell. • With the presence of internal resistance, the potential difference across the cell is always less than the e.m.f.. b. Linear Graph method From the equation, E = V + Ir Therefore V = -rI + E Gradient od the grapf, m = -internal resistance Y intercept of the graph, c = electromotive force Electrical Energy
E = QV
E = Electrical Energy Q = charge V = potential difference
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5
(J) (C) (V or JC-1)
ONE-SCHOOL.NET Electrical Power
W P= t
P = IV
P=I R 2
V2 P= R
(W or Js-1) (J) (s) (A) (V) (Ω)
P = Power W = Work done/Energy change t = Time I = Current V = Potential difference R = Resistance Efficiency
Electrical efficiency =
output power × 100% input power
Electromagnetism Root mean Square Value
Vrms =
Vp 2
Vrms = root mean square voltage Vp = peak voltage
I rms =
Ip 2
Irms = root mean square current Ip = peak current
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6
(V) (V)
(A) (A)
ONE-SCHOOL.NET Transformer Input And Output Of A Transformer
Vs N = s Vp N p
Vp = input (primary) potential difference Vs = output (secondary) potential difference Np = number of turns in primary coil Ns = number of turns in secondary coil
(V) (V)
Power In A Transformer Ideal Transformer
V p × I p = Vs × I s
Vp = input (primary) potential difference Vs = output (secondary) potential difference Ip = input (primary) current Is = output (secondary) current
(V) (V) (A) (A)
Non-ideal transformer
Efficiency =
Vs I s × 100% Vp I p
Power Transmission 2Steps to find the energy/power loss in the cable a. Find the current in the cable by the equation P=IV 2 b. Find the Power lost in the cable by the equation P=I R.
Electronic Energy change of electron in an electron gun
Kinetic energy electrical potential = energy gain
1 2 mv = eV 2 2eV v= m
http://www.one-school.net/ notes.html
v = speed of electron V = potential difference across the electron gun e = charge of 1 electron m = mass of 1 electron
7
(ms-1) (V) (C) (kg)
ONE-SCHOOL.NET Cathode Ray Oscilloscope
Vertical scale = Y-gain control Horizontal scale = Time base Period = Time for 1 complete Oscillation Frequency,
f =
1 T
Transistor - Potential Divider
Potential difference across resistor R1 =
R1 ×V R1 + R2
Potential difference across resistor R2 =
http://www.one-school.net/ notes.html
R2 ×V R1 + R2
8
ONE-SCHOOL.NET
Radioactivity Alpha decay A A− 4 4 Z X ⎯⎯→ Z − 2Y + 2 He
Beta decay
Y+
A A Z X ⎯⎯→ Z +1 1 0
0 −1
e
n→11p + −10 e
Gamma emission
A A Z X ⎯⎯→ Z X
+γ
A = nucleon number Z = proton number Half-life
1 N = ( )n N0 2
N = Amount of radioisotope particles after nth half life. N0 = Initial amount of radioisotope particles. n = number of half life
Nuclear Energy - Einstein Formula
E = mc 2
m = mass change c = speed of light E = energy changed
