2. a) Consider the function y = sin x . State the following derivatives: i) y'...

[2 marks] Find the derivative of y  =  √ 4 sin x + 6 at x  ...

[2 marks] Find the derivative of y  =  √ 4 sin x + 6 at x  =  0. Consider the following statements. The limit lim x→0 g(4 + h) − g(4) h is equivalent to: (i) The derivative of g(x) at x  =  h (ii) The derivative of g(x + 4) at x  =  0 (iii) The derivative of g(−x) at x  =  −4 Determine which of the above statements are True (1) or False (2). If  f (3)  = ...

Consider the surface x^7z^2+sin(y^7z^2)+10=0 Use implicit differentiation to find the following partial derivatives. ∂z/∂x= ∂z/∂y=

Consider the surface x^7z^2+sin(y^7z^2)+10=0 Use implicit differentiation to find the following partial derivatives. ∂z/∂x= ∂z/∂y=

Consider the function on the interval (0, 2π). f(x) = sin(x)/ 2 + (cos(x))2 (a) Find...

Consider the function on the interval (0, 2π). f(x) = sin(x)/ 2 + (cos(x))2 (a) Find the open intervals on which the function is increasing or decreasing. (Enter your answers using interval notation.) increasing     decreasing     (b) Apply the First Derivative Test to identify the relative extrema. relative maximum     (x, y) =    relative minimum (x, y) =

Consider the function on the interval (0, 2π). f(x) = sin(x) cos(x) + 2 (a) Find...

Consider the function on the interval (0, 2π). f(x) = sin(x) cos(x) + 2 (a) Find the open interval(s) on which the function is increasing or decreasing. (Enter your answers using interval notation.) increasing Incorrect: Your answer is incorrect. decreasing Incorrect: Your answer is incorrect. (b) Apply the First Derivative Test to identify all relative extrema. relative maxima (x, y) = Incorrect: Your answer is incorrect. (smaller x-value) (x, y) = Incorrect: Your answer is incorrect. (larger x-value) relative minima...

Calculate the higher derivatives. y = tan(x) y'' =    y''' = If f(x) = sin(x)...

Calculate the higher derivatives. y = tan(x) y'' =    y''' = If f(x) = sin(x) and g(x) = cos(x), determine the following.      f (4n + 1)(x) =      g(4n + 1)(x) =      f (4n + 2)(x) = g(4n + 2)(x) =      f (4n + 3)(x) = g(4n + 3)(x) =      f (4n + 4)(x) = g(4n + 4)(x) = Now, use your answers to calculate F(159)(x) when F(x) = 4 sin(x) + 3 cos(x). F(159)(x)...

2. (a) Determine all first and second order partial derivatives of f(x,y,z) = x2y3 sin(xz) (b)...

2. (a) Determine all first and second order partial derivatives of f(x,y,z) = x2y3 sin(xz) (b) Determine all first-order partial derivatives of g(x,y,z)=u2y+x2v where u=exz, v=sin(yz)

Consider the function f(x, y) = sin(2x − 2y) (a) Solve and find the gradient of...

Consider the function f(x, y) = sin(2x − 2y) (a) Solve and find the gradient of the function. (b) Find the directional derivative of the function at the point P(π/2,π/6) in the direction of the vector v = <sqrt(3), −1>   (c) Compute the unit vector in the direction of the steepest ascent at A (π/2,π/2)

Sketch y = 2 sin(x) + x - 2 (b) This graph intersects the x-axis exactly...

Sketch y = 2 sin(x) + x - 2 (b) This graph intersects the x-axis exactly once. (i) Show that the x-intercept of the graph does not lie in the interval (0, 0.7) (ii) Find the the value of a, 0<a<1 for which the graph will cross the x-axis in the interval (a, a + 0.1) and state this interval (iii) Given x = alpha is the root of the equations 2 Sin(x) + x - 2 = 0, explain...

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the...

Consider the following statements. (i) The differential equation y′ + P(x) y  =  Q(x) has the form of a linear differential equation. (ii) All solutions to y′  =  e^(sin(x^2 + y)) are increasing functions throughout their domain. (iii) Solutions to the differential equation y′  =   f (y) may have different tangent slope for points on the curve where y  =  3, depending on the value of x

Consider the region bounded by y = sin x and y = − sin x from...

Consider the region bounded by y = sin x and y = − sin x from x = 0 to x = π. a) Draw the solid obtained by rotating this region about the line x = 2π. b) Which method (washers or shells) is preferable for finding the volume of this solid? Explain. c) Determine the volume of the solid