Chain Rule, Implicit Differentiation, Parametric Differentiation
Maths Higher · Grade 12 · Week 14 · 25 questions
All 25 questions in this Chain Rule, Implicit Differentiation, Parametric Differentiation quiz
Grade 12 Maths Higher — Chain Rule, Implicit Differentiation, Parametric Differentiation: 25 practice questions with instant scoring and explanations.
- Chain rule for y = f(u) where u = g(x) is: dy/dx =
- For y = (3x² + 5)⁴, the derivative is:
- Implicit differentiation applies when:
- For x² + y² = 25, using implicit differentiation, dy/dx =
- For x³ + y³ = 3xy, dy/dx =
- Parametric equations x = f(t), y = g(t) give dy/dx =
- For x = 2cos(t), y = 3sin(t), the dy/dx =
- For parametric curve, d²y/dx² =
- If x = e^t and y = e^(2t), then dy/dx =
- For implicitly defined curve, the tangent slope at (x₀,y₀) is:
- For y = (sin(x))^(cos(x)), finding dy/dx requires:
- For x = t², y = t³, at t = 1: dy/dx =
- The relation dy/dx = (dy/dt)/(dx/dt) requires:
- Implicit differentiation of x²y + xy² = 1 with respect to x:
- For e^(xy) = x + y, dy/dx =
- Chain rule in multiple variables: If z = f(x,y), x = x(t), y = y(t), then dz/dt =
- For sin(x+y) = xy, dy/dx =
- The arc length element ds for parametric curve is:
- For the curve x = a cos(t), y = a sin(t), dy/dx =
- Implicit function theorem requires the condition:
- For y² = x³ at (0,0), the curve has:
- Logarithmic differentiation is useful for:
- For y = x^x, using logarithmic differentiation: dy/dx =
- Review question for Chain Rule, Implicit Differentiation, Parametric Differentiation
- Review question for Chain Rule, Implicit Differentiation, Parametric Differentiation
Question 1 of 250 correct so far