Use the elliptic curve factorization algorithm to factor N=26167 using the elliptic curve E: Y^2=X^3+4x+128 and...

Use Lenstra's elliptic curve factorization algorithm to factor each of the numbers N using the given...

Use Lenstra's elliptic curve factorization algorithm to factor each of the numbers N using the given elliptic curve E and point P. a) N=26167, E: Y^2=X^3+4X+128, P=(2,12) b) N=1386493, E: Y^2=X^3+3X-3, P=(1,1)

Find the total mass of the centroid E bounded by the elliptic paraboloids y= 5−4x^2−z^2 and...

Find the total mass of the centroid E bounded by the elliptic paraboloids y= 5−4x^2−z^2 and y=x^2+((z^2) /4)

Suppose y^2 = x^3+ax+b with a, b ∈ Q defines an elliptic curve. Show that there...

Suppose y^2 = x^3+ax+b with a, b ∈ Q defines an elliptic curve. Show that there is another equation Y^2 = X^3 + AX + B with A, B ∈ Z whose solutions are in bijection with the solutions to y^2 = x^3+ax+b.

Find the exact length of the curve y=(x^3)/3 + 1/(4x) for 2≤x≤3 Conslder the curve deflned...

Find the exact length of the curve y=(x^3)/3 + 1/(4x) for 2≤x≤3 Conslder the curve deflned by x=t+1 and y=t^2. Find the corresponding rectangular equation. Produce two graphs: one using the rectangular equation and one using the parametric equations. What are the differnce's between the graphs? Please show work.

Find the point on the curve y=4x+2 closest to the point (0,4). (x,y)= (_____,_____)

Find the point on the curve y=4x+2 closest to the point (0,4). (x,y)= (_____,_____)

3. Find the equation of the tangent line to the curve 2x^3 + y^2 = xy...

3. Find the equation of the tangent line to the curve 2x^3 + y^2 = xy at the point (−1, 1). 4. Use implicit differentiation to find y' for sin(xy^2 ) − x^3 = 4x + 2y. 5. Use logarithmic differentiation to find y' for y = e^4x cos(2x) / (x−1)^4 . 6. Show that d/dx (tan (x)) = sec^2 (x) using only your knowledge of the derivatives of sine/cosine with derivative rules. 7. Use implicit differentiation to show that...

3. Consider the equation: x^2y −√y = 2 + 4x^2 a) Find dy/dx using implicit differentiation....

3. Consider the equation: x^2y −√y = 2 + 4x^2 a) Find dy/dx using implicit differentiation. b)Construct the equation of the tangent line to the graph of this equation at the point (1, 9)

Consider the following function. g(x, y)  =  e− 4x^2 + 4y^2 + 8 √ 8y (a)...

Consider the following function. g(x, y)  =  e− 4x^2 + 4y^2 + 8 √ 8y (a) Find the critical point of g. If the critical point is (a, b) then enter 'a,b' (without the quotes) into the answer box. (b) Using your critical point in (a), find the value of D(a, b) from the Second Partials test that is used to classify the critical point. (c) Use the Second Partials test to classify the critical point from (a). A) Saddle...

1) Consider the curve y = e^cos(x) . (a) Find y' (b) Use your answer to...

1) Consider the curve y = e^cos(x) . (a) Find y' (b) Use your answer to part (a) to find the equation of the tangent line to y = e^cos(x) at x = π/2. 2) 3)Consider the curve y = x + 1/x − 1 . (a) Find y' . (b) Use your answer to part (a) to find the points on the curve y = x + 1/x − 1 where the tangent line is parallel to the line...

1) Find the volume of the region under the graph of f (x,y)= 4x+y+1  and above the...

1) Find the volume of the region under the graph of f (x,y)= 4x+y+1  and above the region y^2 ≤x, 0≤ x ≤16 . 2) Calculate the volume under the elliptic paraboloid z=2x^2+ 6y^2  and over the rectangle R=[−2,2]×[−2,2] 3)