Search
You can find the results of your search below.
Fulltext results:
- Solution and Area of Oblique Triangle @fsc-part1-ptb
- modify the contents or credit as you need. <panel title="The Law of Cosine"> <grid><col sm="6"> * $a^2=... {a^2+b^2-c^2}{2ab}$ </col></grid> </panel> <panel title="The Law of Sine"> * $\dfrac{a}{\sin \alpha }=\... \beta }=\dfrac{c}{\sin \gamma }$ </panel> <panel title="The Law of Tangent"> <grid><col sm="4"> * $\df... \alpha}{2} \right)}$ </col></grid></panel> <panel title="Half Angles Formulas"><grid><col sm="4"> * $\s
- Unit 06: Permutation, Combination and Probability (Solutions) @math-11-kpk:sol
- o solve related problems. <panel type="default" title="Exercise 6.1 (Solutions)"> * [[math-11-kpk:sol... 1-p3|Question 5]] </panel> <panel type="default" title="Exercise 6.2 (Solutions)"> * [[math-11-kpk:sol... estion 14 & 15]] </panel> <panel type="default" title="Exercise 6.3 (Solutions)"> * [[math-11-kpk:sol... -p7|Question 9 ]] </panel> <panel type="default" title="Exercise 6.4 (Solutions)"> * [[math-11-kpk:sol
- Unit 03: Vectors (Solutions) @math-11-kpk:sol
- lanarity of three vectors. <panel type="default" title="Exercise 3.2 (Solutions)"> * [[math-11-kpk:sol... 12, 13 & 14]] </panel> <panel type="default" title="Exercise 3.3 (Solutions)"> * [[math-11-kpk:sol... on 12 & 13 ]] </panel> <panel type="default" title="Exercise 3.4 (Solutions)"> * [[math-11-kpk:sol... Question 9 ]] </panel> <panel type="default" title="Exercise 3.5 (Solutions)"> * [[math-11-kpk:sol
- Unit 04: Sequence and Series (Solutions) @math-11-kpk:sol
- term of harmonic sequence. <panel type="default" title="Exercise 4.1 (Solutions)"> * [[math-11-kpk:sol... p4|Question 6 ]] </panel> <panel type="default" title="Exercise 4.2 (Solutions)"> * [[math-11-kpk:sol... Question 17 ]] </panel> <panel type="default" title="Exercise 4.3 (Solutions)"> * [[math-11-kpk:sol... ion 13 & 14 ]] </panel> <panel type="default" title="Exercise 4.4 (Solutions)"> * [[math-11-kpk:sol
- Unit 05: Miscellaneous Series (Solutions) @math-11-kpk:sol
- 1}{(a+d)(a+2 d)}+ \cdots $ <panel type="default" title="Exercise 5.1 (Solutions)"> * [[math-11-kpk:sol... -p6|Question 9 ]] </panel> <panel type="default" title="Exercise 5.2 (Solutions)"> * [[math-11-kpk:sol... Question 4 & 5]] </panel> <panel type="default" title="Exercise 5.3 (Solutions)"> * [[math-11-kpk:sol... -p6|Question 6 ]] </panel> <panel type="default" title="Exercise 5.4 (Solutions)"> * [[math-11-kpk:sol
- Unit 1: Complex Numbers (Solutions) @fsc-part1-kpk:sol
- and $z$ a complex number. <panel type="default" title="Exercise 1.1 (Solutions)"> * [[fsc-part1-kpk:s... -p9|Question 11]] </panel> <panel type="default" title="Exercise 1.2 (Solutions)"> * [[fsc-part1-kpk:s... -2-p8|Question 9]] </panel> <panel type="default" title="Exercise 1.3 (Solutions)"> * [[fsc-part1-kpk:s... -p5|Question 6]] </panel> <panel type="default" title="Review Exercise 1 (Solutions)"> * [[fsc-part1
- Unit 10: Trigonometric Identities of Sum and Difference of Angles (Solutions) @fsc-part1-kpk:sol
- es and cosines) <accordion><panel type="default" title="Exercise 10.1 (Solutions)"> * [[fsc-part1-kpk:... -p11|Question 13]] </panel> <panel type="default" title="Exercise 10.2 (Solutions)"> * [[fsc-part1-kp... -p7|Question 8-9]] </panel> <panel type="default" title="Exercise 10.3 (Solutions)"> * [[fsc-part1-kpk:... -3-p5|Question 5]] </panel> <panel type="default" title="Review Exercise 10 (Solutions)"> * [[fsc-part1
- Unit 01: Complex Numbers (Solutions) @math-11-kpk:sol
- and $z$ a complex number. <panel type="default" title="Exercise 1.1 (Solutions)"> * [[math-11-kpk:sol... -p9|Question 11]] </panel> <panel type="default" title="Exercise 1.2 (Solutions)"> * [[math-11-kpk:sol... -2-p8|Question 9]] </panel> <panel type="default" title="Exercise 1.3 (Solutions)"> * [[math-11-kpk:sol... -p5|Question 6]] </panel> <panel type="default" title="Review Exercise 1 (Solutions)"> * [[math-11-k
- Unit 07: Mathmatical Induction and Binomial Theorem (Solutions) @math-11-kpk:sol
- -ve integers or fractions. <panel type="default" title="Exercise 7.1 (Solutions)"> * [[math-11-kpk:sol... p15|Question 15]] </panel> <panel type="default" title="Exercise 7.2 (Solutions)"> * [[math-11-kpk:sol... 10|Question 11]] </panel> <panel type="default" title="Exercise 7.3 (Solutions)"> * [[math-11-kpk:sol... Question 14 ]] </panel> <panel type="default" title="Review Exercise (Solutions)"> * [[math-11-kpk:
- Unit 10: Trigonometric Identities of Sum and Difference of Angles (Solutions) @math-11-kpk:sol
- cts (of sines and cosines) <panel type="default" title="Exercise 10.1 (Solutions)"> * [[math-11-kpk:so... -p11|Question 13]] </panel> <panel type="default" title="Exercise 10.2 (Solutions)"> * [[math-11-kpk:... -p7|Question 8-9]] </panel> <panel type="default" title="Exercise 10.3 (Solutions)"> * [[math-11-kpk:so... -3-p5|Question 5]] </panel> <panel type="default" title="Review Exercise 10 (Solutions)"> * [[math-11-k
- Unit 02: Matrices and Determinants (Solutions) @math-11-kpk:sol
- and $z$ a complex number. <panel type="default" title="Exercise 2.1 (Solutions)"> * [[math-11-kpk:sol... -p12|Question 13]] </panel> <panel type="default" title="Exercise 2.2 (Solutions)"> * [[math-11-kpk:sol... 5|Question 19]] </panel> <panel type="default" title="Exercise 2.3 (Solutions)"> * [[math-11-kpk:sol
- Atiq ur Rehman, PhD
- 08), 12 pp. </well></collapse> <accordion> <panel title="Currently Teaching Courses"> * **[[atiq:sp24-m... ]]** * **[[atiq:sp24-mth480]]** </panel> <panel title="Courses Recently Taught"> * **[[atiq:fa23-mth1
- Home
- <callout icon="fa fa-quote-left" color="#A11400" title="Quote of the day"> <TEXT align="right">{{includ... <callout icon="fa fa-user-circle" color="#A11400" title="Mathematician of the day"> <image shape="circle"
- MathCraft: PDF to LaTeX file: Sample-01 @mathcraft
- ecolor=magenta, urlcolor=cyan,} \urlstyle{same} \title{ON STOLARSKY AND RELATED MEANS } \author{K. GAC... tetext[#1]{#2}\fi% \fi } \begin{document} \maketitle ABSTRACT. We give a simple proof of the Stolarsky
- MathCraft: PDF to LaTeX file: Sample-02 @mathcraft
- graphicspath{ {./images/} } \usepackage{wrapfig} \title{Hermite-Hadamard integral inequality } \author{} \date{} \begin{document} \maketitle \vspace{-0.7 in} If $f:[a, b] \rightarrow \math