The equation 2??^2 + 4??? + (? + 2)?^2 + 4? − 4? = 0 is...

1) Write a polar equation of a conic with the focus at the origin and the...

1) Write a polar equation of a conic with the focus at the origin and the given data: The curve is a hyperbola with eccentricity 7/4 and directrix y=6. 2a) Determine the equation of a conic that satisfies the given conditions: vertices: (-1,2), (7,2) foci: (-2,2), (8,2) b) Identify the conic: circle parabola, ellipse, hyperbola. c) Sketch the conic. d) If the conic is a hyperbola, determine the equations of the asymptotes.

A conic section is given by the equation 57x^2+14√3 xy+43y^2-576=0, identity and sketch the conics.

A conic section is given by the equation 57x^2+14√3 xy+43y^2-576=0, identity and sketch the conics.

determine the equation of a conic section whose diameter is 14 and center (0,-1)

determine the equation of a conic section whose diameter is 14 and center (0,-1)

determine what kind of conic is represented by the equation r= 1/ 6+4 sin theta.

determine what kind of conic is represented by the equation r= 1/ 6+4 sin theta.

The differential equation ?′′ + 4? = 0 has two solutions given by ?1 = Cos2?...

The differential equation ?′′ + 4? = 0 has two solutions given by ?1 = Cos2? and ?2 = Sin2?. (a): Check if the two solutions are linearly independent. (b): Solve the IVP: ?′′ + 4? = 0; ?(0) = 2, ?′(0) = 5.

For each of the following equations, determine the type of conic section defined by each equation...

For each of the following equations, determine the type of conic section defined by each equation and its properties (including the vertex, the center, the radius, the semi-major and semi- minor axis, and the eccentricity, if and when these are applicable): a. 4x2 –9y2 +16x–18y–29=0 b. 3x2 –24x–8y+24=0 c. 4x2 + 6y2 – 8x + 24y + 4 = 0 d. x2 +y2 +2y–8=0

1)   If 67+3?(?)+4?^2(?(?))^3=0 and ?(−4)=−1, find ?′(−4).      f'(-4)= 2)   Find an equation of the tangent...

1)   If 67+3?(?)+4?^2(?(?))^3=0 and ?(−4)=−1, find ?′(−4).      f'(-4)= 2)   Find an equation of the tangent line to the curve ?^2=?^3(5−?) (a piriform) at the point (1,2). The equation of this tangent line can be written in the form ?=??+?, where ?=_________ and ?=________ find m and b

In this problem we consider an equation in differential form ???+???=0 The equation (6?^(1/?)+4?^3?^−3)??+(6?^2?^−2+4)??=0 in differential...

In this problem we consider an equation in differential form ???+???=0 The equation (6?^(1/?)+4?^3?^−3)??+(6?^2?^−2+4)??=0 in differential form ?˜??+?˜??=0 is not exact. Indeed, we have ?˜?−?˜?/M=______ is a function of ? alone. Namely we have μ(y)= Multiplying the original equation by the integrating factor we obtain a new equation ???+???=0 ?=____ ?=_____ Which is exact since ??=______ ??=_______ are equal. This problem is exact. Therefore an implicit general solution can be written in the form  ?(?,?)=?F where ?(?,?)=__________

1. Write the equation for the following conic sections in standard form: (a) An ellipse centered...

1. Write the equation for the following conic sections in standard form: (a) An ellipse centered at (2,-5) that passes through (2,-3) with foci at (4,-5) and (0,-5). (b) A hyperbola with vertices at (1,0) and (1, 4) and foci at (1,-1) and (1, 5).

A) In this problem we consider an equation in differential form ???+???=0Mdx+Ndy=0. The equation (5?^4?+4cos(2?)?^−4)??+(5?^5−3?^−4)??=0 in...

A) In this problem we consider an equation in differential form ???+???=0Mdx+Ndy=0. The equation (5?^4?+4cos(2?)?^−4)??+(5?^5−3?^−4)??=0 in differential form ?˜??+?˜??=0 is not exact. Indeed, we have My-Mx= ________ 5x^4-4(4)cos(2x)*y^(-5)-25x^4 (My-Mn)/M=_____ -4/y in function y alone. ?(?)= _____y^4 Multiplying the original equation by the integrating factor we obtain a new equation ???+???=0 where M=____ N=_____ which is exact since My=_____ Nx=______ This problem is exact. Therefore an implicit general solution can be written in the form  ?(?,?)=? where ?(?,?)=_________ Finally find the value...