Given that we know a derivative is the limit of the difference quotient, prove the product...

Prove the product rule for derivatives using only the following definition of derivative: [f(x) - f(a)]...

Prove the product rule for derivatives using only the following definition of derivative: [f(x) - f(a)] / (x-a)

What is the difference between the chain rule, product rule, and quotient rule?

What is the difference between the chain rule, product rule, and quotient rule?

Find the derivative and don't simplify. a) [ x^3 (1+x^2)^4 ] / (x^3 + 1)^2 b)...

Find the derivative and don't simplify. a) [ x^3 (1+x^2)^4 ] / (x^3 + 1)^2 b) (1-x^4) / [(x^4)(1+x^2)^3] Grade 12 Calculus, Chapter - derivatives (chain rule, product rule, power rule, quotient rule).

post your conputation to this derivative: F(x)=sin(tan(x))•cos(x) using at least two of these: product rule, chain...

post your conputation to this derivative: F(x)=sin(tan(x))•cos(x) using at least two of these: product rule, chain rule, quotient rule

Derive or prove the three point backward difference approximation of the first derivative, aka Dh--f, of...

Derive or prove the three point backward difference approximation of the first derivative, aka Dh--f, of a function f(x), using either polynomial interpolant method (Newton's or Lagrange's) here is the first derivative approximation: f'(x) = (3* f(x) - 4*f(x-h)+ f(x-2h)) /2h , which is congruent to Dh--f

1) Write and answer a question that asks to find the derivative of an implicitly defined...

1) Write and answer a question that asks to find the derivative of an implicitly defined equation. Your question and solution must demonstrate include each of the following: a. Use implicit differentiation to find ??/?? , b. Make the implicit equation from part a. explicit (use algebra to define ? explicitly in terms of ?) and find ??/ ?? , and c. Show that the solutions from part a. and part b. are the same. 2) Write and solve a...

Given a function f:R→R and real numbers a and L, we say that the limit of...

Given a function f:R→R and real numbers a and L, we say that the limit of f as x approaches a is L if for all ε>0, there exists δ>0 such that for all x, if 0<|x-a|<δ, then |f(x)-L|<ε. Prove that if f(x)=3x+4, then the limit of f as x approaches -1 is 1.

We know that any continuous function f : [a, b] → R is uniformly continuous on...

We know that any continuous function f : [a, b] → R is uniformly continuous on the finite closed interval [a, b]. (i) What is the definition of f being uniformly continuous on its domain? (This definition is meaningful for functions f : J → R defined on any interval J ⊂ R.) (ii) Given a differentiable function f : R → R, prove that if the derivative f ′ is a bounded function on R, then f is uniformly...

Suppose we know that output in the economy is given by the production function: Yt =...

Suppose we know that output in the economy is given by the production function: Yt = At Kt(1/3) Lt(2/3) A.  Use partial derivative techniques to solve for the marginal product of capital. (Remember, it is an equation and NOT a single number). You must show your work, don’t just simply copy the answer from the book or lectures. B. Explain what happens to the MPK as K is increased. Make sure your explanation includes a behavioral rather than just mathematical explanation....

Given the differential equation u' = et + u , u(0) = 0 We know that...

Given the differential equation u' = et + u , u(0) = 0 We know that u = tet a) Find the first four Picard approximation's of u b) Can you find a formula for the n-th Picard approximation so that when you take the limit when n→ ∞ you get the solution from the differential equation?