Single InvestmentInv<Present $>=1/(1+<% p.a.>/100)^<Years><Future $> Value>riods>Annuity calculationAnn<Present $>(1+<% p.a.>/100)^<Years>=(-<Rate/month $>)(((1+<% p.a.>/100)^(<Years>)-1)/(nrt((1+<% p.a.>/100),12)-1))+<Future $>alue>Loan calculationLoan<Loan $>(1+<% p.a.>/100)^(<Years>)=(((1+<% p.a.>/100)^(<Years>)-1)/(nrt((1+<% p.a.>/100),12)-1))<Rate/month $>resrate>/12Overflow Cost.unOver<Overflow $><% p.a.><for Days>=36000<Cost $><x Meter>=<a m/s²><t sek>^2Cost>=<Days>*<%pa>er.beschl.Bewegungaxt<v(diff) [km/h]>/3.6)²=2*<a [m/s²]>*<x [m]>2 °>/180)<F2>>)))F>cos(pi*<f2 °>/180)=<F1>sin(pi*<f1 °>/180+pi*<f2x [m]>=<a [m/s²]><t [s]>²/2f1 °>+<f2 °><=pi>)=<F>cos(<wf2>)wf1>)+sin(<wf2>)cos(<wf1>)))chräger Wurf.enurf<Start [km/h]>/3.6)²*sin(2<Winkel [°]>)/9.80665=<Weite [m]><x Meter>=<a m/s²><t sek>^2.80665*<Flugzeit [s]>=2(<Start [km/h]>/3.6)*sin(<Winkel [°]>)0)enten/MonatmSt>(1+<%>/100)^<Ja>=-12<Rate>(1+<%>/100)((1+<%>/100)^<Ja>-1)/(<%>/100)+<En>>>En>/100)+<End>x>=-1(1+<%>/1200)/<z>(1+<%>/1200)räftedreieckf1f2F>cos(<f1 °>)=sin(<f1 °>+<f2 °>)<F2>360)F>cos(<f2 °>)=<F1>sin(<f1 °>+<f2 °>)ehfeld/1000mehSehfeld/km m>=2000*tan(<Sehwinkel °>/2)2)