Click for REVIEWS: Calculus Made Easy Review from Collegeboard.com Made Easy Apps at Mathforum Calculus Made Easy at Texas Instruments
Secured by PayPal

▷Electrical Engineering Made Easy - Step by Step with the TI-Nspire CX (CAS)◁

         Solve Electrical Engineering problems stepwise using the Ti-Nspire Calculator

Electrical Engineering Made Easy
Runs on TI-Nspire CX and CX CAS only.
It does not run on computers!
TI-Nspire CX CAS TI-Nspire CX
Made Easy App on the TI-Nspire CX CAS Calculator Made Easy App on the TI-Nspire CX Calculator

App Purchase
Enter the last 8 digits of your 27-digit TI-Nspire's Product ID.

Located under 5:Settings → 4:Status → About

ID may look like: 1008000007206E210B0BD92F455. HELP.
If this was your ID you would only type in BD92F455.

 
At the end of the PayPal checkout, you will be sent an email containing your key and download instructions.
Payment Options: Paypal, Mastercard, VISA, American Express, Discover, eCheck Western Union Paypal Bill me later Bitcoins

Description


Most Comprehensive Electrical Engineering APP for the TiNspire: Covers typical topics for Electrical Engineers such as Circuits, capacitators, Induction, Magnetism, Energy, Thermodynamics, Number Systems and Conversions, Periodic System of Elements.

FUNCTIONALITY & MENU ITEMS OF APP :

    ELECTRICITY
  • Electricity & Induction
  • Electricity: Coulombs Law
  • Electricity: Voltage V=E*d
  • Electricity: λVoltage λV=W/q
  • Electricity: λV=Q/C
  • Electricity: P=Po*[1+a*(T-To)]
  • Electricity: q=Q*exp(-t/(R*C))
  • Electricity: q=Q*(1-exp(-t/(RC))
  • Electricity: C=K*eo*A/d
  • Electricity: E=1/2*C*λV^2
  • Electricity: R=λ*1/A
  • Electricity: Flux F=E*A
  • Electricity: E=Q/(4pr^2eo)
  • Electricity: F=s*Q/eo
  • Electricity: V=k*q/r

  • INDUCTION
  • Induction: EMF=B(L)(V)
  • Induction: I=V/R
  • Induction: Pac=1/2(Pacmax))
  • Induction: Pac=I_eff^2*R
  • Induction: I_eff=v(1/2Imax^2)
  • Induction: V_eff=v(1/2(Vmax)^2)
  • Induction: Vs/Vp=Ns/Np
  • Induction: Vp*Ip=Vs*Is

  • MAGNETISM
  • Magnetism: F=q*v*B*sin(θ)
  • Magnetism: r= mv/(qB)
  • Magnetism: v=E/B
  • Magnetism: F=B*I*L*sin(θ)
  • Magnetism: N=T*A*m
  • Magnetism: t=F*r
  • Magnetism: t=B*I*A*sin(θ)
  • Magnetism: t=B*I*A*N*sin(θ)
  • Magnetism: B=μo*I/2pr
  • Magnetism: F/l=&muo*I1*I2/(2pd)
  • Magnetism: B=&muo*I/2R
  • Magnetism: B=N*&muo*I/2R
  • Magnetism: B=&muo*N/l*I
  • Magnetism: F=B*A*cos(θ)
  • Magnetism: λF=BA(cosθf-cosθi)
  • Magnetism: e=-N*(λF)/(λt)
  • Magnetism: F=I*B*l
  • Magnetism: Emf=NBA*delta*sin(θ)
  • Magnetism: Emf=-L*(λI)/(λt)
  • Magnetism: R=P*l/A

  • CIRCUITS & LAWS
  • Circuits & Laws: P=V*I
  • Circuits & Laws: V=R*I
  • Circuits & Laws: P=I^2*R
  • Circuits & Laws: P=V^2/R
  • Circuits & Laws: Vc=(V*R2)/(R1+R2)
  • Circuits & Laws: Read 1. Kirchhoff Law
  • Circuits & Laws: Read 2. Kirchhoff Law

  • ENERGY
  • Heat: Q=m*c*λT
  • Heat: Q=m*L
  • Heat: W=λP*d*λV
  • Heat: λE=Q-W
  • Heat: Conduction
  • Heat: Convection
  • Heat: Radiation
  • Heat: w=-n*r*t*ln(vf/vi)
  • Miscellaneous: Heat (H)
  • Read Dissipated Energy
  • Miscellaneous: W=F*s*cos(θ)
  • Miscellaneous: W=F*s*sin(θ)
  • Miscellaneous: Power=W/t
  • Miscellaneous: E=*dx
  • Work Energy Theorem
  • Photon Energy: E=h*c/λ

  • EXTRAS
  • Solve Any Equation
  • Solve 2x2 System of Equations
  • Periodic Table of Elements: Symbol
  • Periodic Table of Elements: Element Name
  • Read: Useful Constants
  • Find Absolute Error and % Error
  • Convert: Normal to Scientific Notation & vice versa

  • SPECIFIC HEATS
  • Water
  • Ice
  • Steam
  • Methyl Alcohol
  • Benzene
  • Wood
  • Soil
  • Air
  • Aluminum
  • Marble
  • Glass
  • Iron/Steel
  • Copper
  • Silver
  • Mercury
  • Gold
  • Lead

View entire functionality in PDF file