Difference between revisions of "User:Bobthesmartypants/Problems"
(→Problems) |
(→Problems) |
||
Line 33: | Line 33: | ||
Equiangular hexagon <math>ABCDEF</math> has <math>AB=BC=DE=EF=4</math> and <math>AF=CD=1</math>. The hexagon is reflected across the segment <math>\overline{EF}</math> to form hexagon <math>A'B'C'D'EF</math>. <math>\overline{B'C}</math> intersects <math>\overline{EF}</math> at point <math>P</math>. Find <math>\dfrac{EP}{FP}</math>. | Equiangular hexagon <math>ABCDEF</math> has <math>AB=BC=DE=EF=4</math> and <math>AF=CD=1</math>. The hexagon is reflected across the segment <math>\overline{EF}</math> to form hexagon <math>A'B'C'D'EF</math>. <math>\overline{B'C}</math> intersects <math>\overline{EF}</math> at point <math>P</math>. Find <math>\dfrac{EP}{FP}</math>. | ||
+ | |||
+ | '''Problem 5''' | ||
+ | Let <math>m,n</math> be real numbers in the interval <math>[-2,2]</math>. Variables <math>\alpha,\beta</math> satisfy the system of equations: <cmath>\left\{\begin{array}{l}\sin\alpha+\cos\beta=m\\ \sin\beta+\cos\alpha=n\end{array}\right.</cmath> | ||
+ | Given that the numbers <math>m.n</math> are picked at random, the probability that the system of equations has real solutions for <math>\alpha,\beta</math> can be expressed as <math>\dfrac{p\pi}{q}</math> for positive coprime integers <math>p,q</math>. What is <math>p+q</math>? |
Revision as of 23:29, 26 February 2014
Problems
Problem 1
A unit circle is divided into halves. One half is divided into two halves again, and one of those is divided again, and so on. Each of these sectors of the circle is rolled up into a cone, and a circular base is capped onto each one. what is the combined surface area of all of the cones?
Problem 2 Let be rational numbers, be integers. Prove that $\displastyle\sum_{i=1}^{2014} z_i\cdot \text{arctan }r_i$ (Error compiling LaTeX. Unknown error_msg), given that it is defined, can be expressed in the form , where is a rational number.
Problem 3 A unit cube has square pyramids with base side length and height attached to each face such that the cube face and the base of the pyramid coincide. The vertex of each square pyramid is connected to each other to form a octahedron. What is the area of this octahedron?
Problem 4
Equiangular hexagon has and . The hexagon is reflected across the segment to form hexagon . intersects at point . Find .
Problem 5 Let be real numbers in the interval . Variables satisfy the system of equations: Given that the numbers are picked at random, the probability that the system of equations has real solutions for can be expressed as for positive coprime integers . What is ?