PHYSICS

Linear Motion
1. v=u+at
2. S= ut+0.5at^2
3. V^2= u^2 +2as
Projectiles
1. Sy= uyt - 0.5gt^2
2. Sx= uxt
Force
1. F=ma
2. F=-kx
  1. E= 0.5kx^2
Momentum
1. P=mv
2. J = F△t = △p = m△v
3. Po = Pt
4. Fs = 0.5mv^2
Energy
1. W=Fs cosθ =1/2mv^2- 1/2mu^2 = mgh
2. mgh1 + 1/2mu^2 = mgh2 +1/2mv^2
3. P = W/t ; Pav = FVav
Circular motion
1. 1 revolution = 360° = 2πrad
2. w= θ/t =2π/T =2πf
3. v=wr = rw^2 =v^2/r
4. Fc=ma=mvw=mrw^2=mv^2/r
5. universal gravitation
  1. F=Gm1m2/r^2 G=6.67*10^(-11) Nm^2kg^(-2)
  2. g= GM/ R^2
  3. F= mr(2π/T）^2
  4. * R
Electric Fields
1. F = K q1q2/r^2 k=9.0*10^9 Nm^2c^(-2)
2. E= F/q =k Q/r^2
3. W=qv=qEd
4. E =V/d
Direct Current
1. I=Q/t
2. R=V/I = ρl/A
3. P =UI
4. Series
  1. I=I1=I2=···
  2. V=V1+V2+V3···
  3. R=R1+R2+R3···
5. Parallel
  1. V=V1=V2=···
  2. I=I1+I2+I3+···
  3. 1/R=1/R1+1/R2+···
6. V=ε-Ir
Rigid body Statics
1. τ=d*F=rsinθ*F unit：Nm
2. Reaction
  1. εhorizontal=0
  2. εvertical=0
3. Force
  1. Compression
  2. Tension
  3. Shear
Rigid body dynamics
1. I=mr^2 unit: kgm^2
2. I=mk^2 gyration
3. Kinematics
  1. Wf=Wo + αt
  2. Wf^2=Wo^2+2αθ
  3. θ=Wot+0.5αt^2
4. Work
  1. W=τθ
  2. P =τω
  3. L=Iω
5. exam
  1. τ=rF=Iα=Ia/r
  2. Ke=0.5mv^2 +0.5Iω^2=mgh=Fs
  3. I1W1=I2W2
Optical Systems
1. Reflection
  1. i=r
2. Refraction
  1. Formula
    1. air/vacuum v=3*10^8 m/s
    2. sini/sinr=v1/v2=n2/n1=n (>=1)
    3. n1sinθ1=n2sinθ2
  2. Deviation
  3. Dispersion
    1. red bend less and violet most of all
    2. Dispersion of a spectrum=deviation for violet-deviation for red
3. 1/f= 1/p +1/i
  1. Mirrors
    1. f=R/2 curvature
      1. concave
      2. +f (postive focus)
      3. +/- i image
      4. convex
      5. -f (negative focus)
      6. - i only virtual image
    2. Nature of an image
      1. real/virtual
      2. magnified/diminished
      3. upright/inverted
    3. M=hi/ho=i/p overall=M1*M2*M3•••
  2. Lens
    1. convex (converging)
      1. +f (postive focus)
      2. +/- i image
    2. concave (diverging)
      1. -f (negative focus)
      2. -i only virtual image
  3. Optical systems
    1. L=fo+fe (only for telescope)
    2. most distinct view
      1. ie=-250mm M=fo/Pe
    3. most relaxed view
      1. Pe=fe M=fo/fe infinity
    4. Keplerian Terrestrial telescope : 4f longer
    5. Galilean Telescope : fo-fe long
Wave Motion
1. SHM
  1. x=x0cos(ωt)
  2. v=-xoωsin(ωt)
  3. α=-ω^2x
  4. T=2π√l/g=2π√m/k ω=√k/m
2. v=fλ = λ/T
3. Standing wave partterns in strings
  1. Standing wave patterns in strings
    1. Fundamental
      2. 2l
      3. fo
      4. First harmonic
    2. First overtone
      1. l
      2. 2fo
      3. Second harmonic
    3. Second overtone
      1. 2l/3
      2. 3fo
      3. Third harmonic
    4. Third overtone
      1. l/2
      2. 4fo
      3. Fourth hormonic
Sound
1. Intersity unit:ω/m^2
2. I1R1^2=I2R2^2
3. Step between two sound-levels(db)=10logI1/I2
  1. Vibrational modes in open pipes
    1. Fundamental
      2. 2l
      3. fo
      4. First harmonic
    2. First overtone
      1. Topic
      2. 2fo
      3. l
      4. second harmonic
    3. second overtone
      1. Third harmonic
      2. 3fo
      3. 2l/3
    4. Third overtone
      1. Fourth harmonic
      2. 4fo
      3. l/2
4. Absolute =10logI/1*10^(-12)
  1. Vibrational modes in stopped pipes
    1. Fundamental
      2. 4l
      3. fo
      4. First harmonic
    2. First overtone
      1. 4l/3
      2. 3fo
      3. Third harmonic
    3. Second overtone
      1. 4l/5
      2. 5fo
      3. Fifth harmonic
    4. Third overtone
      1. 4l/7
      2. 7fo
      3. Seventh harmonic
Interference
1. constructive interference/bright fringe/maxima
  1. dsinθ =mλ
2. destructive interference/dark fringe/minima
  1. dsinθ=(m-1/2)λ
3. x/D=mλ/d
Magnetism
1. declination
2. inclination/dip
3. B=μo/2π•I/r=2*10^(-7)•I/r unit:T
4. F=LIBSinθ
5. F/l=μo/2π•I1I2/d
  1. parallel currents attract
  2. Anti-parallel currents repel
6. F=qvB=mv^2/r=Eq
  1. r=mv/qB
  2. v=F/B
Electromagnetic
1. Φb=BA (wb=1Tm^2)
2. ε=-NΦ/t =lvB
3. Transformers
  1. εs/εp=Ns/Np
  2. VsIs=VpIp
Nuclear Energy