The path of a particle on a two-dimensional surface is defined by ln? (x/y)? = sin-1(x...

y = (6 +cos(x))^x Use Logarithmic Differentiation to find dy/dx dy/dx = Type sin(x) for sin(x)sin(x)...

y = (6 +cos(x))^x Use Logarithmic Differentiation to find dy/dx dy/dx = Type sin(x) for sin(x)sin(x) , cos(x) for cos(x)cos(x), and so on. Use x^2 to square x, x^3 to cube x, and so on. Use ( sin(x) )^2 to square sin(x). Use ln( ) for the natural logarithm.

if not exact make it exact then Solve (ln sin y -3x^2) dy/dx + x cot...

if not exact make it exact then Solve (ln sin y -3x^2) dy/dx + x cot y + 4y =0 y = (Pi/2)=2

1. Find the point on the line y = x − 6 that is closest to...

1. Find the point on the line y = x − 6 that is closest to the origin 2. Find the rate of change ds/dt of the function S= x^2+y^2 when x=9, y=15, dx/dt=2, dy/dt=-1

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt,...

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt, dy/dt, and dz/dt and using the chain rule dx/dt = dy/dt= dz/dt= now using the chain rule calculate dw/dt 0=

dx/dt = 1 - (b+1) x + a x^2 y dy/dt = bx - a x^2...

dx/dt = 1 - (b+1) x + a x^2 y dy/dt = bx - a x^2 y find all the fixed point and classify them with Jacobian.

Solve the given initial-value problem. (x + 2) dy dx + y = ln(x), y(1) =...

Solve the given initial-value problem. (x + 2) dy dx + y = ln(x), y(1) = 10 y(x) = Give the largest interval I over which the solution is defined. (Enter your answer using interval notation.) I =

a) find dy/dx for each of the following i. y = 4ex (1 + ln x)...

a) find dy/dx for each of the following i. y = 4ex (1 + ln x) [9 marks] ii. y = ex ln (5x 3 + x 2 )

Let h be the function defined by H(x)= integral pi/4 to x (sin^2(t))dt. Which of the...

Let h be the function defined by H(x)= integral pi/4 to x (sin^2(t))dt. Which of the following is an equation for the line tangent to the graph of h at the point where x= pi/4. The function is given by H(x)= integral 1.1 to x (2+ 2ln( ln(t) ) - ( ln(t) )^2)dt for (1.1 < or = x < or = 7). On what intervals, if any, is h increasing? What is a left Riemann sum approximation of integral...

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b)...

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b) (1/y^2)(dy/dx)+(1/xy)=1

Solve the following a)y=tan^-1 (sqrt((x+1)/(x+2) b)y=ln(sin^-1(x)) c)d/dx[sec^-1(x)]=1/(x(sqrt(x^2 -1) d)Find Y' tan^-1(x^2 y)=x+xy^2

Solve the following a)y=tan^-1 (sqrt((x+1)/(x+2) b)y=ln(sin^-1(x)) c)d/dx[sec^-1(x)]=1/(x(sqrt(x^2 -1) d)Find Y' tan^-1(x^2 y)=x+xy^2