We use distributive law to simplify an expression. The distributive law is given below: $$a(p+q) = ap+aq. $$ Answer and Explanation: a) We are given the function: $$f(x)=-8x^5-6x^3 $$ Substitute {eq}x=-x {/eq}, we get: $$f (-x) = -8(-x)...
Evaluate the difference quotient for the given function. Simplify your answer. {eq}f\left( x \right)=\dfrac{x+3}{x+1},\dfrac{f\left( x \right)-f\left( 1 \right)}{x-1} {/eq} Difference Quotient: The difference quotient is a fractional expression given in the form ...
In Exercises (1)-, find and simplify the difference quotient, for the given function. (1)f(x)=4x (2)f(x)=3x+7 (3) (4) (5) (6) (7) (8) (9)f(x)=6相关知识点: 试题来源: 解析 (1)4, (2)3, (3)2x+h, (4)2x+h-4, (5)4x+2h+1, (6)-2x-h+2, (7)-...
For the required composite functions, we'll replace the variable of the numerator and denominator of the given quotient expression by another function and then we'll substitute the value of the second function. Simplify the obtained quotient expressio...
Find out whether the given function is even, odd or neitherf(x)={x|x|x≤−1[1+x]+[1−x]−1<x<1−x|x|x≥1,[.]denotes the greatest integer function. View Solution Examine whether the function are even or odd or none. ...
The power rule states that if f(x)=kxn, then f′(x)=k⋅n⋅xn−1. Here, k=74 and n=2. Applying the power rule:f′(x)=74⋅2⋅x2−1=74⋅2⋅x=72x Step 2: Evaluate the derivative at x=17Now, we need to find f′(17):f′(17)=72⋅17 Step 3: Simplify ...
Question: Evaluate the function at the given value of the independent variable. Simplify the results. Evaluate the function at the given value of the independent variable. Simplify the results. There are 2 steps to solve this one.
%% you can find the position and Orientation of 5th Link with respect to Base Link using T05 = T01*T12*T23*T34*T45; simplify(T05) ans = This is for symbolic form in case of numeric evaluation use makehgtform https://in.mathworks.com/help/matlab/ref/...
MATLAB Online에서 열기 Hello all, I am trying to find all the roots of a symbolic polynomial on the given interval [0, 1]. For my function, the plot shows 11 roots in the interval. I have been trying to no avail. This is what I have: ...
Evaluate the given integral by using three terms of the appropriate series. Round to four decimal places. {eq}\int^{0.3}_0 \sqrt[3]{ 1+ 3x^2} dx {/eq} Binomial Rule for Definite Integral: For the simplification of the definite integr...