
This is the list of Equations separated by topic. The 3 letters followed by th
number before the "=" is the name of the equation that will appear in the solver
list. Since some of the variables didn't copy over you can't decipher that a
"" is a ^2. So you can use the program title list to view the equation as well.
Or the method explaned in the other read me.



Velocity

Vel1=D=D2-D1
Vel2=T=T2-T1
Vel3=D=V*T

Acceleration

Acc1=V=A*T
Acc2=Vf=Vi+(A*T)
Acc3=D=.5(Vf-Vi)T
Acc4=D=Vi(T)+.5(A)(T)
Acc5=Vf=Vi+2(A*D)

Forces

For1=F=M*A
For2=W=M*G
For3=Ff=Fn*
For4=A*M=Fnet

Vectors

Vec1=Opp=Hyp(sin )
Vec2=Adj=Hyp(cos )
Vec3=Opp=Adj(tan )
Vec4=A+B=C
Vec5=Fv=F(sin )
Vec6=Fh=F(cos )
Vec7=Fpar=W(sin )
Vec8=Fper=W(cos )
Vec9=A*M=W(sin )

2 Dimensional Motion

M2D1=X=Vx*T
M2D2=Vyf=Vy+(G*T)
M2D3=A*R=V
M2D4=Y=Vy*T+.5(G)(T)
M2D5=V*T=2R
M2D6=Ac*T=4()R
M2D7=T=2((L/G))

Universal Gravitation

Gra1=(Ta/Tb)=(Ra/Rb)^3
Gra2=T/2=(R^3/(G*ME))
Gra3=F/G=(M1*M2)/D
Gra4=Tp/Rp=(4)/(G*Ms)
Gra5=Me*G=g*Re
Gra6=V=((G*M^)/R)
Gra7=A=g(Re/D)
Gra8=A*D=G*ME

Momentum

Mom1==M*V
Mom2=F*T=M*V
Mom3==M*V
Mom4=I=F*T
Mom5=(M1*V1)+(M2*V2)=(M1*V1p)+(M2*V2p)
Mom6=1+2=1p+2p

Work in Simple Machines

Wor1=W=F*D
Wor2=W=F(cos )D
Wor3=P*T=W
Wor4=MA*Fe=Fr
Wor5=IMA*Dr=De
Wor6=Wi=Fe*De
Wor7=Wo=Fr*Dr
Wor8=Eff*IMA=MA*100

Energy

Ene1=KE=.5*M*V
Ene2=D*2*A=V
Ene3=W=M*A*D
Ene4=E=KE+PE
Ene5=PE=M*G*H
Ene6=KE+PE=KEp+PEp

Thermal Energy

The1=T=Tf-Ti
The2=K=C+273.15
The3=Q=M*C*T
The4=E1+E2=0
The5=(M1*C1*T1)=(M2*C2*T2)
The6=Q=M*Hf

States of Matter

Mat1=F=P*A
Mat2=F1*A2=F2*A1
Mat3=Fb=w*V*G
Mat4=W=*V*G
Mat5=P=*H*G
Mat6=(Li*T)=L

Waves

Wav1=1=F*T
Wav2==V*T
Wav3=V=*F
Wav4=Fd(V-Vs)=Fs(V+Vd)
Wav5=F=F2-F1
Wav6=E(4*D)=P
Wav7=L*4=N*
Wav8=P=4L

Reflection and Refraction

Ref1=N(sin r)=sin i
Ref2=Ni(sin i)=Nr(sin r)
Ref3=C=Ns*Vs
Ref4=1=sin c(Ni)

Mirrors and Lenses

Mir1=1/F=(1/Di)+(1/Do)
Mir2=M*Ho=Hi
Mir3=M=(Di/Do)
Mir4=Hi/Ho=(Di/Do)

Diffraction and Interfearance of Light

Dif1=*L=X*D
Dif2==D(sin )
Dif3=sin (B*Pb)=X
Dif4==(sin )W
Dif5=X*W=*L

Electric Fields

Ele1=V*Q=W
Ele2=E*D=V
Ele3=N*V=Q
Ele4=C*V=Q
Ele5=E*Q=F
Ele6=E*Q=M*G

Current Electricity

Cur1=P=V*I
Cur2=E=P*T
Cur3=V=I*R
Cur4=P=I*R
Cur5=E=I*R*T

Parallel Circuits

Par1=V=I*R
Par2=Vc(R1+R2)=V*R2
Par3=1/R=(1/R1)+(1/R2)+(1/R3)
Par4=V=V1+V2+V3
Par5=R=R1+R2+R3

Magnetic Fields

Mag1=B*I*L=F
Mag2=F=B*Q*V

Electromagnetic Induction

Ind1=EMF=B*L*V
Ind2=V=I*R
Ind3=Pac=.5(Pacmax)
Ind4=Pac=Ieff*R
Ind5=Ieff*R=.5(Imax)*R
Ind6=Ieff=.5(Imax)
Ind7=Veff=.5(Vmax)
Ind8=Vs*Np=Vp*Ns
Ind9=Vp*Ip=Vs*Is

Electric and Magnetic Fields

EMF1=E=V*D
EMF2=Q*B*R=M*V
EMF3=KE=Q*V
EMF4=V*M=2*Q*V
EMF5=R*B=((2*V*M)/Q)
EMF6=Q*B*R=M*V*2

Quantum Theory

Qua1=E=N*H*F
Qua2=KE=(H*F)-(H*Fo)
Qua3=KE=(Q*Vo)
Qua4=W*o=Hc
Qua5=KE=(Hc/)-(Hc/o)
Qua6=KE=F*H
Qua7=*C=Hf
Qua8=*=H
Qua9=E*=Hc
Qua10=*(M*V)=H

The Atom

Ato1=K*Q*R=R*M*V
Ato2=Rn*4*K*M*Q=H*N
Ato3=En*H*N=2**K*M*Q^4
Ato4=N*=2**R