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- 15:42, 21 June 2023 MV Calculus (hist | edit) [39 bytes] Dvaezazizi@laalliance.org (talk | contribs) (Created page with "https://youtu.be/-3uMEWZYIKU")
- 01:58, 20 June 2023 Honors Pre-Calc. 9th (hist | edit) [255 bytes] Dvaezazizi@laalliance.org (talk | contribs) (Created page with "1.4: https://www.youtube.com/watch?v=3VbGA0w51lw <br> 1.3: https://www.youtube.com/watch?v=WPUqh73hIDg <br> 1.2: https://www.youtube.com/watch?v=IxTHmzgllFQ <br> 1.1: https://www.youtube.com/watch?v=4-XuHYU6KZw <br>")
- 01:56, 20 June 2023 Calculus 9th (hist | edit) [162 bytes] Dvaezazizi@laalliance.org (talk | contribs) (Created page with "3.10: https://www.youtube.com/watch?v=t7ZqzeX9yE8 3.9: https://www.youtube.com/watch?v=ruwNhGv2pSs")
- 01:55, 20 June 2023 Videos (hist | edit) [72 bytes] Dvaezazizi@laalliance.org (talk | contribs) (Created page with "Calculus <br> Honors Pre-Calc. <br>")
- 15:59, 3 May 2023 2024/G2/15 (hist | edit) [872 bytes] Aroldog69360@students.laalliance.org (talk | contribs) (Created page with "<math>\mathbf{3.3}</math><br> <math> \lim_{\theta\to 0} \frac{sin(\theta)}{\theta} = 1</math><br> <math> \lim_{\theta\to 0} \frac{cos(\theta)-1}{\theta}=0 </math><br> <math> \frac{d}{dx} [sin(x)] = cos(x) </math><br><br> <math> \frac{d}{dx} [cos(x)] = -sin(x) </math><br><br> <math> \frac{d}{dx} [tan(x)] = sec^{2}(x) </math><br><br> <math> \frac{d}{dx} [csc(x)] = -csc(x) \cdot cot(x) </math><br><br> <math> \frac{d}{dx} [sec(x)] = sec(x) \cdot tan(x) </math><br><br> <math...")
- 18:08, 2 May 2023 2024/G10/12 (hist | edit) [473 bytes] Freddys70014@students.laalliance.org (talk | contribs) (Created page with "<math>\mathbf{Chapter 3 Section 2}</math><br> <math>{\frac{d}{dx}} [sin(x)] = cos(x) \qquad {\frac{d}{dx}}[csc(x)]= -csc(x) \cdot cot(x)</math><br> <math>{\frac{d}{dx}} [cos(x)] = -sin(x) \qquad {\frac{d}{dx}}[sec(x)]= sec(x) \cdot tan(x)</math> <br> <math>{\frac{d}{dx}} [tan(x)] = sec^2(x)\qquad {\frac{d}{dx}}[cot(x)]= -csc^2(x)dr</math><br> <math>\mathbf{\color{Blue}{Examples}}</math><br> <math>\mathbf{Ex.2}</math><br> <math>f(x)=\frac{sec(x)}{1+tan(x)}</math><br>")
- 16:46, 11 April 2023 2024/G1/3 (hist | edit) [1,588 bytes] Christophers69344@students.laalliance.org (talk | contribs) (Created page with "==Ch3 Sec2 Review== <math>{\frac{d}{dx}} [c] = 0 </math> <br> <math>{\frac{d}{dx}} [c\cdot f(x)] = c\cdot{\frac{d}{dx}} [f(x)] </math> <br> <math>{\frac{d}{dx}} [f(x)\pm g(x)] = {\frac{d}{dx}} [f(x)] \pm {\frac{d}{dx}} [g(x)] </math> <br> <math> {\frac{d}{dx}} [x^n] = n \cdot x^n-1 </math> <br> <math>{\frac{d}{dx}} [a^x] = \ln(a)a^x </math><br> <math> {\frac{d}{dx}} [e^x] = e^x </math><br> ==Ch3 Sec4 == ===Point Slope Form=== <math> y - y_1 = m(x - x_1) </math> <br>")
- 22:20, 30 March 2023 2024/G2/12 (hist | edit) [2,855 bytes] Aroldog69360@students.laalliance.org (talk | contribs) (Created page with "<math>\mathbf{3.1}</math><br> 1. The derivative of a constant is 0 = <math>{\frac{d}{dx}} [c] = 0 </math> <br> 2. <math>{\frac{d}{dx}} [x^n] = nx^{n-1} </math> <br><br> 3. <math>{\frac{d}{dx}} [c\cdot f(x)] = c \cdot {\frac{d} {dx}} [f(x)] </math> <br><br> 4. <math>{\frac{d}{dx}} [f(x) + g(x)] = {\frac{d}{dx}} [f(x)] + {\frac{d}{dx}} [g(x)] </math> <br> <br> 5. <math>{\frac{d}{dx}} [a^x] = ln (a) \cdot a^x </math> <br> <br> 6. <math>{\frac{d}{dx}} [e^x] = e^x </math> <br...")
- 22:11, 30 March 2023 2024/G8/13 (hist | edit) [1,812 bytes] Seths70070@students.laalliance.org (talk | contribs) (Created page with " <math>\mathbf{Chapter 3 Section 2}</math><br> Review section 1 <br> <math>{\frac{d}{dx}} [c] = 0 </math> <br> <math>{\frac{d}{dx}} [c\cdot f(x)] = c\cdot{\frac{d}{dx}} [f(x)] </math> <br> <math>{\frac{d}{dx}} [f(x)\pm g(x)] = {\frac{d}{dx}} [f(x)] \pm {\frac{d}{dx}} [g(x)] </math> <br> <math>{\frac{d}{dx}} [a^x] = \ln(a)a^x </math><br> <math>{\frac{d}{dx}} [e^x] = e^x </math><br> <math>\color{green}Power\,Rule </math><br> <math>{\frac{d}{dx}} [x^n] = n \cdot x...")
- 22:11, 30 March 2023 2024/G8/3 (hist | edit) [1,910 bytes] Seths70070@students.laalliance.org (talk | contribs) (Created page with "Section 1<br> Section 2<br>")
- 21:54, 30 March 2023 2024/G2/13 (hist | edit) [1,876 bytes] Aroldog69360@students.laalliance.org (talk | contribs) (Created page with "<math>\mathbf{3.2}</math><br> <math>{\frac{d}{dx}} [c] = 0 </math> <br> <math>{\frac{d}{dx}} [c\cdot f(x)] = c\cdot{\frac{d}{dx}} [f(x)] </math> <br> <math>{\frac{d}{dx}} [f(x)\pm g(x)] = {\frac{d}{dx}} [f(x)] \pm {\frac{d}{dx}} [g(x)] </math> <br> <math>{\frac{d}{dx}} [a^x] = \ln(a)a^x </math><br> <math>{\frac{d}{dx}} [e^x] = e^x </math><br> <math>\color{Blue}Power\,Rule </math><br> <math>{\frac{d}{dx}} [x^n] = n \cdot x^n-1 </math> <br> <math>\color{Red}Product\,Rule <...")
- 21:51, 30 March 2023 2024/G2/5 (hist | edit) [1,876 bytes] Aroldog69360@students.laalliance.org (talk | contribs) (Created page with "<math>\mathbf{3.2}</math><br> <math>{\frac{d}{dx}} [c] = 0 </math> <br> <math>{\frac{d}{dx}} [c\cdot f(x)] = c\cdot{\frac{d}{dx}} [f(x)] </math> <br> <math>{\frac{d}{dx}} [f(x)\pm g(x)] = {\frac{d}{dx}} [f(x)] \pm {\frac{d}{dx}} [g(x)] </math> <br> <math>{\frac{d}{dx}} [a^x] = \ln(a)a^x </math><br> <math>{\frac{d}{dx}} [e^x] = e^x </math><br> <math>\color{Blue}Power\,Rule </math><br> <math>{\frac{d}{dx}} [x^n] = n \cdot x^n-1 </math> <br> <math>\color{Red}Product\,Rule <...")