Chapter 3.2
Page 127
918319291 | Constant Rule | d/dx [ c ] = 0 y=c ,a horizontal line | |
918319292 | Power Rule | d/dx [xⁿ] = n × (nⁿ⁻¹) | |
918319293 | Constant Multiple Rule | d/dx [ c × f(x) ] = c * d/d× [ f(x) ] = c × f ' (x) | |
918319294 | Sum and Difference Rules | d/dx [ f(x) ± g(x) ] = d/dx [ f(x) ] ± d/dx [ g(x) ] = f '(x) ± g '(x) | |
918319295 | Derivatives of Sine and Cosine Functions | d/dx [ sinx ] = cosx d/dx[ cosx ] = −sinx | |
918319296 | Natural Exponential Function | d/dx [ eⁿ ] = eⁿ | |
918319297 | Rates of Change | Rate of change of one variable with respect to another variable. | |
918319298 | Average Velocity | ∆s/∆t " position at time 't' " | |
918319299 | Average Acceleration | ∆v/∆t " position at time 't' " |