![Rings of constants of the form k[f]](http://s1.studyres.com/store/data/021729650_1-3a6201c0eec615e02140355abcc4b661-300x300.png)
Homework 2
... like? i.e. for a point p, what does the set of points {f i (p) for i ∈ Z} look like? Problem 4. Give an example of a discrete group of orientation-preserving isometries of E4 that is abstractly isomorphic to Z2 but does not contain any translations (other than the identity element). Problem 5. Give ...
... like? i.e. for a point p, what does the set of points {f i (p) for i ∈ Z} look like? Problem 4. Give an example of a discrete group of orientation-preserving isometries of E4 that is abstractly isomorphic to Z2 but does not contain any translations (other than the identity element). Problem 5. Give ...
PDF
... Elliptic curves: f (x, y) = y 2 − (ax3 + bx2 + cx + d) = y 2 − q(x) Cf (R) is an elliptic curve if f has no linear factors and Cf (R) has no singular points. Verifying this, over R can be hard! But if we work over C, we have Fact: Cf (C) is an elliptic curve (which implies that Cf (R) is) ⇔ q(x) has ...
... Elliptic curves: f (x, y) = y 2 − (ax3 + bx2 + cx + d) = y 2 − q(x) Cf (R) is an elliptic curve if f has no linear factors and Cf (R) has no singular points. Verifying this, over R can be hard! But if we work over C, we have Fact: Cf (C) is an elliptic curve (which implies that Cf (R) is) ⇔ q(x) has ...
4.2 - People Server at UNCW
... For the polynomial (e) Use the x-intercepts and test numbers to find the intervals on which the graph of f is above the x-axis and the intervals on which the graph is below the x-axis. (f) Put all the information together, and connect the points with a smooth, continuous curve to obtain the graph o ...
... For the polynomial (e) Use the x-intercepts and test numbers to find the intervals on which the graph of f is above the x-axis and the intervals on which the graph is below the x-axis. (f) Put all the information together, and connect the points with a smooth, continuous curve to obtain the graph o ...
