Struggling with calculus? Own a TI-89 Titanium?
Tired of missing steps? Homework taking too long?
Quotient Rule? Product Rule? Chain Rule?
Trouble during tests?
My name is Tom and I program TI calculators to make calculus much easier step by step and showing all work.
Welcome to where your TI-89 Titanium calculator shows you exactly what you really want. The correct answer step by step, right on your TI-89 calculator screen.
The programs are a compilation of midterms, finals and homework from college calculus classes 1,2 and 3 all over the United States. The app shows work for calculus solutions line by line at your own pace so you can write it down on tests, homework, whatever.
You get all 90+ calculus 1,2 & 3 programs below for the price of one good happy hour.
100% Guaranteed or your money back
CALCULUS 1 PROGRAMS
Chain Rule | dy/dx = f’[g(x)] * g’(x) | dy/dx = f’(u) * u’ | (5x²+7)^5 | sin(ax) | 7*cos(5*x^2) | (tan (5x))^5 Video Example
Critical Points Video Example
Definite Integral | b = ∫ [ f(x) ]dx a Video Example
Difference Quotient Video Example
Derivatives (Rewrite selected and Differentiate) | √(x) | 3√(x) | 5/√(x) | 5/x | 5/8x | 5/x² | (5x)² | 5x²/8 | x(x+5) | x^½ | x^(-½) | (x²-4)/(x+2) | (x²-4)/(x-2) | (5x²+7)^5 | √(5x²+7) | (5x²+7)½ | ³√ (5x²+7) | (5x²+7)¹/³ | sin | cos | tan
Equation of a Line to Graph (y=mx+b) Video Example
Equation of a tangent line at a pt x on a curve | (y = mx + b) Video Example
Implicit differentiation | y³+y²-5y-x² = -4
Integrals (Rewrite selected & Integrate) | n / √(x) | (x² + n)² | (x³ + n)/x² | ³√(x) | n / x² | n / ³√(x) | n / x√(x) | 1 / x³
Integration by Parts | ln(x) Video Example
| ne^x Video Example
| sin(x) Video Example
Intervals of Increase and Decrease
Limits Video Example
ln(x) (Differentiation & Integration)
Local Max and Min Video Example
log(x) to base a (standard calculations) | x = ? | exponential form Video Example
Product Rule Video Example
Quotient Rule | ( f [x] ) / ( g [x] ) Video Example
Recent Testimonials July/August 2012:
Got it to work with that link you sent me! Just wanted to say thanks for all the great work you do, and for helping me pass this calculus class. I'm going to tell everyone about this and make them pay the $30 dollars because you have done a splendid job programming my friend. Let me know if you have any new programs for derivatives or integrals and Ill let you know if I need any more help! Much thanks,
Thanks Tom. I appreciate you taking the time to break down and explain these to me. :0)
Great talking with you last night. I already liked you for developing this “most excellent program” but after our conversation I concluded you to be a great guy. I’ve been playing with this program most of the night, took in a few “z’s” and am back for more. This program really is superb. I did, however, notice that for some unknown reason when I attempt to do Relative Extrema’s and Trajectories that both programs came up as “Program not Found”. I’m not sure if I will be encountering the Trajectory stuff in this semester of Calculus but I do have a test this Thursday that includes Relative Extrema. Any suggestion, oh Master of this great creation?!
I’m going to be gone most the day but should be home late afternoon if you got time to call. Same number (843-xxx-xxxx). That’s Myrtle Beach, 3 hours ahead of you and more golf courses than you can shake a stick at. Thanks
Wow! Awesome! These are great, so great, thank you!
CALCULUS 2 & 3 PROGRAMS
A,B Vectors |A| Magnitude |B| Magnitude | A - B Magnitude | A . B Dot Product | A + B | A + B + C | A + B Magnitude | A x B Cross Prod | B - A | B x A | n * A | n * A + n * B | Area of a parallelogram | Component A direct B | cos(A & B) | Equation of a Plane | P&Q Points | Project of A on B | Project of B on A | Unit vector A | Unit vector B Video Example
Curl | PQR system | Conservative? | Divergence? |Compute Curl at Point | Compute Divergence at Point | MNP system | Conservative? | Divergence? | Compute Curl at Point | Compute Divergence at Point Video Example
Gradient | Instructions | Definition | 2 Variables | 3 Variables
Trig & Half Angle Formulas | 1 + cos(2x)2 | 1 - cos(2x)/1 + cos(2x) | 1 - cos(2x)/2 | cos(2x) | cos(x) | cos²(x) | cot(x) | csc(x) | csc²(x) | sec(x) | sec²(x) | sin(2x) | sin(x) | sin²(x) | sin²(x) + cos²(x) = 1 | tan(x) | tan²(x)
Linear Equations (3 variable) | ax+by+cz+d=0
Line Integral | f(x,y,z) = f[x(t) | y(t) | z(t)]
Mass of Spring/Wire | b = ∫ [ ∂[(x(t),y(t),z(t)] * √( [x’(t) ²+y’(t) ²+z’(t) ²] dt a
P & Q Points (Vectors) | Position Vectors | Projection of a on b, b on a | Speed
Surface Integral (x,y Plane)
Position Vectors | Velocity | Acceleration | Speed | Unit Tangent Vector | Parametric Equation | Standard (Linear) Equation
Sphere Equation | midpoint | radius
Trig d/dx - Identities and Functions | 1+cos(2x)2 | 1-cos(2x) / 1+cos(2x) | 1-cos(2x)/2 | cos(2x) | cos(x) | cos²(x) | cot(x) | csc(x) | csc²(x) | sec(x) | sec²(x) | sin(2x) | sin(x) | sin²(x) | sin²(x) + cos²(x) = 1 | tan(x) | tan²(x) Video Example
Unit Tangent Vector