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- ...arithmetic]] holds. More precisely an integral domain <math>R</math> is a unique factorization domain if for any nonzero element <math>r\in R</math> which i * This representation is unique up to units and reordering, that is if <math>r = p_1p_2\cdots p_n = q_1q_2\6 KB (1,217 words) - 23:05, 23 August 2009
Page text matches
- The accomplishments of every student are unique, and there is no way to measure that success. However, we try to record an5 KB (667 words) - 17:09, 3 July 2023
- ...math>a</math> or <math>b-c</math>—a contradiction.) This inverse is unique, and each number is the inverse of its inverse. If one integer <math>a</ma4 KB (639 words) - 01:53, 2 February 2023
- ...n the coefficients of the polynomial. We can solve this system and find a unique solution when we have as many equations as we do coefficients. Thus, given6 KB (1,100 words) - 01:44, 17 January 2024
- ...uct of cyclic groups of prime order where the set of prime power orders is unique. We can do this because if any two prime powers are not coprime then <math16 KB (2,658 words) - 16:02, 8 May 2024
- Orthic triangles are not unique to their mother triangle; one acute and one to three obtuse triangles are g8 KB (1,408 words) - 11:54, 8 December 2021
- ...a product of primes ([[permutation|permutations]] not withstanding). This unique [[prime factorization]] plays an important role in solving many kinds of [[6 KB (985 words) - 12:38, 25 February 2024
- ...tal Theorem of Arithmetic]] tells us that every [[positive integer]] has a unique prime factorization, up to changing the order of the terms.3 KB (496 words) - 22:14, 5 January 2024
- ...League''' ('''NOML'''), formerly known as the '''Cody Bowl''', is a highly unique and challenging [[mathematics competition]] for high school and college stu3 KB (452 words) - 11:21, 25 June 2006
- ...at <math>{x}</math>.") If such a matrix <math>M</math> exists, then it is unique, and it is called <math>F'(x)</math>. Intuitively, the fact that <math>\fr12 KB (2,377 words) - 11:48, 22 July 2009
- ...e this video link for detailed explanation of the proof and the concept of unique factorization: https://youtu.be/jfDbnz-Bp_g3 KB (453 words) - 11:13, 9 June 2023
- ...ation in an improper fractional base. (Note that this means there is not a unique representation for each number in an improper fractional base.)787 bytes (118 words) - 19:20, 23 October 2010
- ...is the center of the [[incircle]]. Every [[nondegenerate]] triangle has a unique incenter.2 KB (381 words) - 19:38, 24 November 2011
- <math>\mathbb{Z}</math>: the [[integer]]s (a [[unique factorization domain]]).8 KB (1,401 words) - 13:11, 17 June 2008
- of a unique combination of [[prime number]]s, the zeta function can be9 KB (1,547 words) - 03:04, 13 January 2021
- ...adratic equation that have <math>3</math> terms and contain <math>1</math> unique root.954 bytes (155 words) - 01:14, 29 November 2023
- ...e unique. Fortunately, it is always the case that if a limit exists, it is unique. a contradiction. Therefore limits are unique, as we wanted.7 KB (1,325 words) - 13:51, 1 June 2015
- The mean, median, unique mode, and range of a collection of eight integers are all equal to 8. The l12 KB (1,792 words) - 13:06, 19 February 2020
- ...f(x)</math> where the coefficient of <math>x^k</math> equals the number of unique terms in <math>(x+y+z)^k + (x-y-z)^k</math>. ...ome constant. Therefore, the generating function for the MAXIMUM number of unique terms possible in the simplified expression of <math>(x+y+z)^k + (x-y-z)^k<8 KB (1,332 words) - 17:37, 17 September 2023
- '''OpenCourseWare''' is a unique resource offered by [[MIT]]. There are course decriptions, sample syllabi,289 bytes (40 words) - 12:20, 3 July 2006
- ...erally denoted <math>\emptyset</math> or <math>\varnothing</math>) is the (unique) [[set]] containing no elements. It is therefore a [[subset]] of every set.489 bytes (84 words) - 21:33, 27 February 2020
- ...> A(0,12), B(10,9), C(8,0), </math> and <math> D(-4,7). </math> There is a unique square <math> S </math> such that each of the four points is on a different6 KB (983 words) - 05:06, 20 February 2019
- ...h> A(0,12), B(10,9), C(8,0),</math> and <math> D(-4,7). </math> There is a unique [[square]] <math> S </math> such that each of the four points is on a diffe3 KB (561 words) - 14:11, 18 February 2018
- ...digit, there are <math>9</math> possibilities. When <math>n</math> has two unique digits there are two cases. Case 1: two digits are the same with each other3 KB (508 words) - 01:16, 19 January 2024
- For <math>\{1, 2, 3, \ldots, n\}</math> and each of its nonempty subsets a unique '''alternating sum''' is defined as follows. Arrange the numbers in the sub7 KB (1,104 words) - 12:53, 6 July 2022
- What is the largest positive integer <math>n</math> for which there is a unique integer <math>k</math> such that <math>\frac{8}{15} < \frac{n}{n + k} < \fr6 KB (869 words) - 15:34, 22 August 2023
- ..., <math>w_4 = 1 + 27i</math>, and <math>w_5 = -14 + 43i</math>, there is a unique mean line with y-intercept <math>3</math>. Find the slope of this mean line6 KB (902 words) - 08:57, 19 June 2021
- ...h between 1 and 1000 inclusive, with repetitions allowed. The sample has a unique mode (most frequent value). Let <math>D^{}_{}</math> be the difference betw is true for a unique choice of non-negative integer <math>m^{}_{}</math> and digits <math>a_0,a_7 KB (1,045 words) - 20:47, 14 December 2023
- ...\ldots,a_n^{}</math> are positive real numbers whose sum is 17. There is a unique positive integer <math>n^{}_{}</math> for which <math>S_n^{}</math> is also7 KB (1,106 words) - 22:05, 7 June 2021
- ...f(f(x))=x</math> for all values except <math>\frac{-d}{c}</math>. Find the unique number that is not in the range of <math>f</math>.7 KB (1,098 words) - 17:08, 25 June 2020
- Every positive integer <math>k</math> has a unique factorial base expansion <math>(f_1,f_2,f_3,\ldots,f_m)</math>, meaning tha6 KB (947 words) - 21:11, 19 February 2019
- ...or <math>\{1, 2, 3, \ldots, n\}</math> and each of its non-empty subsets a unique '''alternating sum''' is defined as follows. Arrange the numbers in the sub5 KB (894 words) - 22:02, 5 April 2024
- ...assume that the answer is unique, but would need to prove that this is the unique solution. This can be proven as follows.19 KB (3,221 words) - 01:05, 7 February 2023
- ...remove <math>4</math> trees that aren't birch. What you are left with is a unique arrangement of <math>5</math> birch trees and <math>3</math> other trees th ...ve <math>4</math> trees. Adding a tree between each pair of people gives a unique arrangement of <math>5</math> nonadjacent birch trees.7 KB (1,115 words) - 00:52, 7 September 2023
- What is the largest positive integer <math>n</math> for which there is a unique integer <math>k</math> such that <math>\frac{8}{15} < \frac{n}{n + k} < \fr ...\frac{7n}{8}</math>. Thus, <math>48n < 56k < 49n</math>. <math>k</math> is unique if it is within a maximum [[range]] of <math>112</math>, so <math>n = 112</2 KB (393 words) - 16:59, 16 December 2020
- ...<math>w_4 = 1 + 27i</math>, and <math>w_5 = - 14 + 43i</math>, there is a unique mean line with <math>y</math>-intercept 3. Find the [[slope]] of this mean2 KB (422 words) - 00:22, 6 September 2020
- is true for a unique choice of non-negative integer <math>m</math> and digits <math>a_0,a_1,\ldo2 KB (408 words) - 17:28, 16 September 2023
- ...h between 1 and 1000 inclusive, with repetitions allowed. The sample has a unique [[mode]] (most frequent value). Let <math>D</math> be the difference betwee5 KB (851 words) - 18:01, 28 December 2022
- ...\ldots,a_n^{}</math> are positive real numbers whose sum is 17. There is a unique positive integer <math>n^{}_{}</math> for which <math>S_n^{}</math> is also4 KB (658 words) - 16:58, 10 November 2023
- ...he area outside the two circles but inside the square, we want to find the unique area of the two circles. We can do this by adding the area of the two circl2 KB (323 words) - 12:05, 16 July 2019
- ...of <math>\frac{12}{2}=6</math> lines. Finally, we add the <math>12</math> unique tangent lines to the circle at each of the lattice points.3 KB (442 words) - 19:51, 8 January 2024
- ...product will contain <math>(n+1)^2</math> terms, as each term will have an unique power of <math>x</math> or <math>y</math> and so none of the terms will nee ...that the coefficients in the problem statement have no effect on how many unique terms there will be in the expansion. Therefore this problem is synonymous3 KB (515 words) - 04:29, 27 November 2023
- ...f(f(x))=x</math> for all values except <math>\frac{-d}{c}</math>. Find the unique number that is not in the range of <math>f</math>. ...function, and since this is a linear function over a linear function, the unique number not in the range of <math>f</math> will be <math>e</math>. <math>\fr11 KB (2,063 words) - 22:59, 21 October 2023
- There, a unique value of <math>x, y</math> is formed for every value of <math>k</math>. How6 KB (966 words) - 21:48, 29 January 2024
- ...ath>7!.</math> This is because each Hamiltonian cycle corresponds to eight unique ways to label the faces. Label the vertices <math>AR,BR,CR,DR,AX,BX,CX,DX</11 KB (1,837 words) - 18:53, 22 January 2024
- ...we know that <math>\angle{ADB}</math> is not a right angle, and there is a unique other triangle with the matching side-side-angle. ...e{ADB}</math> is not right. Therefore <math>\triangle{C'DB}</math> is the unique triangle mentioned above, so <math>\triangle{CDB}</math> is congruent, in s3 KB (487 words) - 22:14, 24 November 2019
- ...ding to <math>\lambda_1</math>. We do the same computations for our second unique eigenvalue, but I will save the computation to you. There are actually 2 ei15 KB (2,406 words) - 23:56, 23 November 2023
- Every positive [[integer]] <math>k</math> has a unique factorial base expansion <math>(f_1,f_2,f_3,\ldots,f_m)</math>, meaning tha7 KB (1,131 words) - 14:49, 6 April 2023
- Such a factorization is unique. Let <math>d(g_i)</math> denote the degree of9 KB (1,699 words) - 13:48, 11 April 2020
- ...tangent]] to each side. Every [[triangle]] and [[regular polygon]] has a unique incircle, but in general polygons with 4 or more sides (such as non-[[squar2 KB (384 words) - 18:38, 9 March 2023
- A unique aspect to equations is the ability to modify an original equation by perfor5 KB (932 words) - 12:57, 26 July 2023
- There is also a unique name for <math>(k\backslash\{0\},\cdot)</math>, which most accept as the ''2 KB (362 words) - 23:24, 31 December 2021
- Identities in this sense are [[unique]]. Imagine we had two identities, <math>e</math> and <math>e'</math>, for s1 KB (238 words) - 13:38, 14 July 2021
- ...define the function <math>a \mapsto \genfrac{(}{)}{}{}{a}{p}</math> as the unique nontrivial multiplicative [[homomorphism]] of <math>\mathbb{F}_p^\times</ma7 KB (1,182 words) - 16:46, 28 April 2016
- * Dedekind domains have unique prime factorizations of [[ideal]]s (but not necessarily of elements).9 KB (1,648 words) - 16:36, 14 October 2017
- If the operation <math>G</math> is associative, inverses are unique.1 KB (275 words) - 11:40, 23 November 2007
- ...h>P_2</math>, we have that <math>a(y^2 + \frac{45}4) + by = c</math> has a unique [[root]] so <math>b^2 - 4\cdot a \cdot (\frac{45}4a - c) = 0</math> or equi3 KB (460 words) - 15:52, 3 April 2012
- This is a set of three linear equations. In our case, it has a unique solution <math>(p,q,r)=(-2,-1,1)</math>, hence <math>d_7 = -2d_6 - d_5 + d_3 KB (568 words) - 15:50, 3 April 2012
- ...x_3 + x_2) = 2</math>. It is clear that <math>x_3 = x_2 = 1</math> is the unique solution to this equation in positive integers. Then <math>x_1 = 8 - x_2 =3 KB (470 words) - 00:33, 10 August 2019
- b) For which matrix <math>A</math> is the pseudo-inverse unique?11 KB (1,779 words) - 14:57, 7 May 2012
- ...ermore, all of those products are unique since each positive integer has a unique prime factorization.3 KB (511 words) - 06:58, 21 May 2009
- ...milarly proof-based team round where teams prove foundational results in a unique topic, tied together by a common theme. Topics in the past have included ga1 KB (214 words) - 22:37, 10 November 2023
- ...group <math>G</math> and a function <math>\theta:I\to G</math>, there is a unique group homomorphism <math>\psi:F\to G</math> so that <math>\theta=\psi\phi</2 KB (454 words) - 17:54, 16 March 2012
- ...Every odd integer can be written in the form <math>2k + 1</math> for some unique integer <math>k</math>.736 bytes (127 words) - 13:08, 20 February 2024
- ...en. Every even integer can be written in the form <math>2k</math> for some unique integer <math>k</math>.796 bytes (134 words) - 16:45, 17 January 2023
- Often one speaks of groups acting on sets. Since elements groups must have unique inverses, for every <math>a</math> in a group <math>G</math> acting on a se3 KB (670 words) - 22:45, 21 May 2008
- ...| = 2-x</math>, so we must solve <math>x - 1 = 2 - x</math>, which has the unique solution <math>x = \frac32</math>.2 KB (289 words) - 18:01, 16 January 2021
- ...to the [[intersection]] of a unique residue class mod <math>m</math> and a unique residue class mod <math>n</math>, and the intersection of each residue clas6 KB (1,022 words) - 14:57, 6 May 2023
- ...ndamental Theorem of Arithmetic]] states that all positive integers have a unique prime factorization. Therefore, <math>N</math> must have a prime factor (po1 KB (179 words) - 11:57, 14 August 2022
- ...common mistakes (often this rubric only includes the most common solution; unique ideas are determined on a case-by-case basis). The sheer amount of ideas th5 KB (773 words) - 19:16, 17 June 2022
- Note that in fact, the answer is not unique because a many numbers can be represented as a [[binomial coefficient]] in2 KB (293 words) - 16:20, 8 October 2007
- ...[[expression]] for <math>n</math> (called its [[prime factorization]]) is unique, up to rearrangement of the factors. ...erribly interesting, but it does prove that every [[Euclidean domain]] has unique prime factorization.2 KB (376 words) - 23:28, 4 August 2022
- There exists a unique strictly increasing sequence of nonnegative integers <math>a_1 < a_2 < …13 KB (1,968 words) - 18:32, 29 February 2024
- ...<math>x_i \neq x_j </math> for all <math>i \neq j </math>, there exists a unique monic real polynomial <math>P(x) </math> of degree <math>n </math> such th ''Proof 1.'' By the [[Lagrange Interpolation Formula]], there exists a unique real polynomial <math>Q(x) </math> of degree less than <math>n </math> such4 KB (688 words) - 13:38, 4 July 2013
- ...h> and any complex numbers <math> y_0, \ldots, y_n </math>, there exists a unique [[polynomial]] <math>P(x) </math> of [[degree of a polynomial | degree]] le ...s useful for many olympiad problems, especially since such a polynomial is unique.2 KB (398 words) - 03:50, 20 November 2023
- For each positive integer <math>p</math>, let <math>b(p)</math> denote the unique positive integer <math>k</math> such that <math>|k-\sqrt{p}| < \frac{1}{2}<7 KB (1,218 words) - 15:28, 11 July 2022
- ...[[positive]] [[integer]] <math>p</math>, let <math>b(p)</math> denote the unique positive integer <math>k</math> such that <math>|k-\sqrt{p}| < \frac{1}{2}<3 KB (562 words) - 20:02, 30 December 2023
- ...1=n</math> and, for each <math>k>1</math>, letting <math>a_k</math> be the unique integer in the range <math>0\le a_k\le k-1</math> for which <math>a_1+a_2+\3 KB (539 words) - 13:42, 4 July 2013
- ...= n</math> and, for each <math>k>1</math>, letting <math>a_k</math> be the unique integer in the range <math>0 \le a_k \le k-1</math> for which <math>a_1 + a6 KB (1,204 words) - 20:06, 23 August 2023
- ...th> such that the equation <math> \displaystyle \psi(x) = ax </math> has a unique solution. ...Thus the canonical solution to the equation <math>\psi(x) = ax </math> is unique if and only if <math>a </math> is a power of 2. Q.E.D.6 KB (1,007 words) - 09:10, 29 August 2011
- ...{mn} </math>. Furthermore, for each <math> d \mid mn </math>, there exist unique <math>d_m, d_n </math> such that <math> d_m \mid m </math>, <math> d_n \mid3 KB (613 words) - 21:40, 21 June 2009
- ...servations, we can see that our function <math> \displaystyle s </math> is unique up to sign.6 KB (958 words) - 22:15, 9 June 2007
- Notice that if <math>f(x) = 0</math>, then <math>x</math> has the unique root of <math>-\frac{\frac{9}{2\sqrt{\alpha}}}{\sqrt{\alpha}} = \frac{-9}{21 KB (216 words) - 10:46, 27 April 2008
- <b>Lemma</b>. For any integer <math>N</math>, there exists unique <math>(a_{N},b_{N}) \in \mathbb{Z} \times \{0,1,\ldots,m-1\}</math> such th17 KB (2,748 words) - 19:22, 24 February 2024
- There exist unique positive integers <math>x</math> and <math>y</math> that satisfy the equati Indeed, by solving, we find <math>(x,y) = (18,62)</math> is the unique solution.4 KB (694 words) - 22:00, 12 January 2024
- ...ath> depends on the value of both <math>A</math> and <math>C</math> and is unique for each <math>(A,C)</math>. Thus our answer is <math>9 \cdot 5 \cdot 1 = 42 KB (266 words) - 00:59, 19 October 2020
- ...the center triangle. Note that given any <math>3</math> colors, there is a unique way to assign them to the corner triangles. We have <math>6</math> differen4 KB (695 words) - 10:37, 4 November 2023
- ...math>\frac{1}{a} + \frac{1}{b} + \frac{1}{c} = 1</math>. The solution with unique values is <math>a = 2, b = 3, c = 6</math>. If we use this format to guess938 bytes (136 words) - 08:56, 6 August 2019
- ...that for all nonnegative integers <math>n</math>, <math>x=4</math> is the unique solution to the equation <math>f_n(x) = 2x</math>. <math>\blacksquare</mat2 KB (322 words) - 19:14, 18 July 2016
- There are unique integers <math>a_{2},a_{3},a_{4},a_{5},a_{6},a_{7}</math> such that13 KB (1,945 words) - 18:28, 19 June 2023
- ...(0,1,1)</math>. For every point <math>P</math> in this region, there exist unique points <math>X</math> and <math>Y</math> such that <math>P</math> is the mi ...,2/3,0)</math>. For every point <math>Z</math> in this region, there exist unique points <math>X</math> and <math>Y</math> such that <math>Z\in XY</math> and2 KB (402 words) - 23:28, 18 July 2016
- For any triangle, there are three unique excircles. This follows from the fact that there is one, if any, circle suc5 KB (843 words) - 03:02, 1 July 2020
- ...h> such that <math>\angle PAB=\angle PCA=\angle PBC</math>. It is also the unique point <math>P</math> inside <math>\triangle ABC</math> such that the sum of626 bytes (98 words) - 20:13, 27 January 2024
- ...verse of a point P with respect to circle C. In other words, construct the unique point <math>P'</math> on ray <math>CP</math> such that <math>CP * CP'</math3 KB (443 words) - 20:52, 28 August 2014
- Assume for the sake of contradiction that is possible for unique integers <math>a,b,c</math>. Let <math>P(x)=d_1x^n+d_2x^{n-1}+\cdots+d_n.</7 KB (1,291 words) - 20:30, 27 April 2020
- It is clear that each point <math>P</math> has the unique isogonal conjugate point.54 KB (9,416 words) - 08:40, 18 April 2024
- The ''empty partition'' (with no parts) is the unique partition of <math>0</math>, so <math>P(0) = 1</math>. The unique partition of <math>1</math> is <math>1</math>, so <math>P(1) = 1</math>.10 KB (1,508 words) - 14:24, 17 September 2017
- '''Theorem 4.''' There exists a unique homomorphism <math>\epsilon</math> from <math>\mathfrak{S}_M</math> to the ...y its transpositions (Theorem 1), it follows that <math>\epsilon</math> is unique. <math>\blacksquare</math>10 KB (1,668 words) - 15:33, 25 May 2008
- There exist unique positive integers <math>x</math> and <math>y</math> that satisfy the equati9 KB (1,536 words) - 00:46, 26 August 2023
- There exist <math>r</math> unique nonnegative integers <math>n_1 > n_2 > \cdots > n_r</math> and <math>r</mat7 KB (1,167 words) - 21:33, 12 August 2020
- There exist unique positive integers <math>x</math> and <math>y</math> that satisfy the equati Indeed, by solving, we find <math>(x,y) = (18,62)</math> is the unique solution.4 KB (732 words) - 22:17, 28 November 2023
- ...system of two [[equation]]s with two unknowns, indicating that there is a unique solution. Solving by substitution or multiplying the top equation and subtr1 KB (182 words) - 17:25, 2 April 2008
- ...negative integers <math>n_1 > n_2 > \cdots > n_r</math> and <math>r</math> unique integers <math>a_k</math> (<math>1\le k\le r</math>) with each <math>a_k</m1 KB (167 words) - 21:47, 21 September 2020
- ...which satisfy the following condition: Every integer is [[congruent]] to a unique member of the set modulo <math>n</math>.698 bytes (110 words) - 20:53, 1 January 2010
- ...]], a residue of an integer <math>a</math> in modulo <math>n</math> is the unique value of <math>0\leq r \leq n-1</math> such that <math>a=kn + r</math>. In670 bytes (115 words) - 19:25, 27 April 2008
- ...of <math>a</math> such that <math>a^2 + a + 1</math> has arbitrarily many unique prime factors, by our second Lemma, and so it is possible for <math>P</math11 KB (1,964 words) - 03:38, 17 August 2019
- ...</math>, the integer <math>n</math> such that <math>x \in M_n(X)</math> is unique. This is called the ''length'' of <math>x</math>; it is sometimes denoted ...duction on <math>n</math> that for all integers <math>n</math>, there is a unique extension <math>f_n</math> of <math>f</math> to <math>\bigcup_{i=1}^n M_n(X4 KB (887 words) - 13:19, 6 July 2016
- ...}</math>. Therefore each element of <math>N/H</math> is associated with a unique automorphism of the <math>G</math>-set <math>G/H</math>. ...th>, and <math>K</math> a subgroup of <math>H</math>. Then there exists a unique <math>G</math>-morphism <math>f : G/K \to G/S</math> for which <math>f(K) =7 KB (1,332 words) - 18:45, 9 September 2008
- ...math>\sigma</math> be an element of <math>S_M</math>. Then there exists a unique set <math>C</math> of cycles of <math>S_M</math> with pairwise disjoint sup ...<math>\bar\sigma</math>, it follows from the lemma that <math>C</math> is unique. <math>\blacksquare</math>3 KB (616 words) - 22:13, 12 January 2017
- ...</math> of <math>G</math> for which <math>\alpha(i)= x</math> constitute a unique [[coset |left coset]] modulo <math>\text{stab}(i)</math>. Thus1 KB (207 words) - 12:26, 9 April 2019
- For any positive integers <math> a </math> and <math> b </math>, there exist unique integers <math> q </math> and <math> r </math> such that <math> b = qa + r249 bytes (44 words) - 16:45, 10 November 2011
- ...[[reciprocal]]s of the [[positive integer]]s. Then <math>0</math> is the unique limit point of <math>S</math>.1 KB (220 words) - 17:50, 28 March 2009
- ...ny integer <math>a</math> and positive integer <math>b</math>, there exist unique integers <math>q</math> and <math>r</math> such that <math>a = qb + r</math2 KB (311 words) - 02:25, 22 June 2009
- There are unique integers <math>a_{2},a_{3},a_{4},a_{5},a_{6},a_{7}</math> such that ...\equiv 514 \equiv 4 \pmod{6}</math>, and so forth. Continuing, we find the unique solution to be <math>(a_2, a_3, a_4, a_5, a_6, a_7) = (1,1,1,0,4,2)</math>4 KB (595 words) - 01:43, 4 October 2023
- Now we prove such a sequence is unique. We first claim that a sequence of positive integers <math>a_0, a_1,\dots, which contradicts the fact that they are equal. So there is a unique sequence satisfying the problem conditions.3 KB (477 words) - 17:42, 8 August 2019
- ...have that for some <math>n</math>-tuple of <math>c_i</math> there exists a unique permutation <math>x</math> of <math>s_n</math> such that <math>S(x)\equiv y2 KB (364 words) - 08:55, 31 August 2011
- ...r what choices are made at each stage, the final configuration obtained is unique. Describe that configuration in terms of <math>n</math>.3 KB (567 words) - 16:49, 5 January 2021
- ...h> to <math>j+n\in B</math>. Since each such set of flippings results in a unique <math>x</math>, all we want to count is the number of flippings. We can fli4 KB (677 words) - 01:10, 19 November 2023
- We will show that <math>f(x) = 2x</math> is the unique solution to this equation. To this end, let <math>g(x) = f(x) - x</math>. ...Since this function evidently satisfies the problem's condition, it is the unique solution, as desired. <math>\blacksquare</math>2 KB (375 words) - 16:44, 4 September 2008
- ...phism <math>f:A\to B</math> in <math>\mathcal{C}</math> is associated to a unique morphism <math>f^{op}:B\to A</math> in <math>\mathcal{C}^{op}</math> (and e2 KB (438 words) - 17:07, 8 September 2008
- ...nction's degree is at most 3 and we know four points, we can construct the unique remainder function.3 KB (560 words) - 19:49, 23 November 2018
- ...math> or <math>p \equiv 1 \pmod{4}</math>; and that this representation is unique. ...]s <math>\mathbb{Z}[i]</math> has a [[Euclidean algorithm]]. Hence it has unique prime factorization, and is a [[principal ideal domain]] (i.e., every [[ide4 KB (612 words) - 12:10, 30 May 2019
- Because of its unique property, the absolute zero is defined as 0 for the [[Kelvin]] scale -- the753 bytes (108 words) - 15:35, 5 April 2024
- The mean, median, unique mode, and range of a collection of eight integers are all equal to 8. The l11 KB (1,733 words) - 11:04, 12 October 2021
- ...ath> has <math>2</math> solutions. Thus, there are <math>\boxed {4}</math> unique points such that the triangle has an area of <math>10</math>, or <math>C</m2 KB (368 words) - 11:08, 4 February 2017
- The mean, median, unique mode, and range of a collection of eight integers are all equal to 8. The l As the unique mode is <math>8</math>, there are at least two <math>8</math>s.3 KB (519 words) - 21:34, 23 June 2023
- ...tive) plane to itself so that each point has a unique image and also has a unique point that was mapped to it. They include Translations, Reflections, Dilati238 bytes (39 words) - 22:17, 22 November 2015
- If the numbers were all unique, the answer would be <math> 16! </math>. However, since 8 terms appear twic3 KB (418 words) - 23:48, 3 July 2022
- ...(E)\ 2004}}</math> values of <math>z</math>, each of which correspond to a unique ordered pair <math>(a, b)</math>.4 KB (743 words) - 19:54, 14 March 2024
- Consider the unique differences <math>2^{a + n} - 2^a</math>. Simple casework yields a sum of <3 KB (396 words) - 11:42, 23 January 2023
- Unique solution: https://youtu.be/2Xzjh6ae0MU7 KB (1,117 words) - 00:23, 9 January 2023
- ...ath> that is equivalent to <math>p</math> modulo <math>(x-a)</math>. This unique element is sometimes denoted <math>p(a)</math>. Thus we may associate each ...e ring of integers), this association of polynomials with functions ''is'' unique. In such contexts, the polynomials are often identified with their functio12 KB (2,010 words) - 00:10, 3 August 2020
- b) Prove that such a tasteful tiling is unique.2 KB (265 words) - 19:51, 6 May 2023
- ...r radical axis is the perpendicular to <math>l</math> through point A, the unique point on <math>l</math> such that <math>pow(A, \omega_1) = pow(A, \omega_2) ''Lemma 2:'' There is an unique point P on line <math>O_1O_2</math> such that <math>pow(P, O_1) = pow(P, O_10 KB (1,797 words) - 02:05, 24 October 2023
- This assumes that incomes of all the families are unique. Otherwise, more than one family could have $98000 as income and the above1 KB (160 words) - 12:26, 13 June 2023
- b) Prove that such a tasteful tiling is unique.4 KB (718 words) - 18:16, 17 September 2012
- ...h>, and <math>G = PA \cap BQ</math> are collinear. However, there exists a unique point <math>Q</math> such that <math>HQ</math>, <math>AC</math>, and <math>6 KB (973 words) - 19:24, 18 October 2018
- ..., and hence <math>b</math> is a unit.) The converse of this holds in any [[unique factorization domain]], but it does not hold in a general integral domain.928 bytes (179 words) - 21:07, 23 August 2009
- ...arithmetic]] holds. More precisely an integral domain <math>R</math> is a unique factorization domain if for any nonzero element <math>r\in R</math> which i * This representation is unique up to units and reordering, that is if <math>r = p_1p_2\cdots p_n = q_1q_2\6 KB (1,217 words) - 23:05, 23 August 2009
- ...any permutation in <math>A_n</math>. Now take <math>x_1</math> and for the unique value <math>k</math> such that <math>|x_1-x_k|=n</math>, put <math>x_1</mat11 KB (1,928 words) - 12:26, 26 July 2023
- ...BD</math> is lengthened from the minimum to the maximum values, there is a unique value of <math>BD</math> somewhere in the middle such that the sum of oppos ...,8)</math>, and no matter how the sides are rearranged only <math>1</math> unique quadrilateral can be formed.8 KB (1,315 words) - 03:33, 23 January 2021
- .../math>. Similarly, the Euclidean space of dimension <math>n</math> is the unique (up to [[isomorphism]]) [[vector space]] of dimension <math>n</math> over <1,018 bytes (164 words) - 12:46, 13 March 2010
- ...nced ternary}</math> representation of <math>N</math> is defined to be the unique sequence of integers <math>(b_0, b_1, \ldots, b_m)</math>, with <math>b_i \7 KB (1,297 words) - 01:29, 25 November 2016
- ...he [[matrix inverse|inverse]] <math>A^{-1}</math> of <math>A</math> is the unique matrix such that <math>AA^{-1} = A^{-1}A = I_n</math>.1 KB (178 words) - 00:00, 17 March 2010
- ...that <math>(10^3)(a_3) + (10)(a_1) \leq 2010</math> there is a [[bijection|unique]] choice of <math>a_2</math> and <math>a_0</math> that makes the equality h ...ctly one way as <math>100a + 10c + e</math>, and this corresponds with one unique <math>100b + d + f</math>, so it remains to count the number of integers be7 KB (1,147 words) - 21:58, 23 January 2024
- ...th>, where <math>\gcd(p, q, r) = 1</math> and <math>r > 0</math>, find the unique integer <math>k</math> between 0 and 982 inclusive such that <math>983</mat7 KB (1,150 words) - 09:10, 8 October 2018
- ...th>, where <math>\gcd(p, q, r) = 1</math> and <math>r > 0</math>, find the unique integer <math>k</math> between 0 and 982 inclusive such that <math>983</mat36 KB (6,214 words) - 20:22, 13 July 2023
- We observe that our solution is not unique, indeed for any <math>k>0</math>, even terms, respectively, of the unique sequence which satisfies our11 KB (1,889 words) - 13:45, 4 July 2013
- ...rents and teachers face when trying to advance math achievement, given the unique learning needs of every child. Each of TenMarks’ interactive worksheets has 10 unique questions, which focuses on one concept at a time. While students practice,6 KB (841 words) - 02:41, 2 June 2010
- set - an unordered list of unique data types - Ex: {1,2,3}13 KB (2,299 words) - 12:24, 2 March 2024
- ...ces) of the pentagon needs to be established for the pair. The remaining 3 unique colors can be arranged 3! different ways on the remaining 3 vertices.9 KB (1,613 words) - 22:19, 5 June 2023
- ...m <math>C</math> is fixed. We need obtuse <math>\triangle ABC</math> to be unique, so there can only be one possible location for <math>C.</math> As shown be14 KB (2,269 words) - 00:43, 2 January 2023
- ...s of i, j, and k have been used, so every one of these numbers will have a unique triple for placement, as above with the number five. Thus, after 1, 2, 3, a ...of assignment from <math>a_j\rightarrow j\mod (2,3,5)</math> determines a unique string of <math>30</math> numbers. For example:10 KB (1,581 words) - 22:09, 27 August 2023
- ...<math>s \not\equiv 0 \pmod 5</math>, if a winning vertex exists, it is the unique vertex with <math>r_i \equiv 0</math>. ...able, and with <math>s = 2011 \not\equiv 0 \pmod 5</math> we always have a unique such vertex, we are done.4 KB (761 words) - 02:36, 21 April 2015
- ..., we can choose one of the remaining <math>9</math> subsets to produce the unique element. Hence, proved. <math>\blacksquare{}</math>7 KB (1,209 words) - 12:50, 25 August 2023
- ...wed by problems). '''Excellent''' book for number theory, and has it's own unique approach, Highly Suggested for Number Theory.17 KB (2,261 words) - 00:30, 22 April 2024
- ...t block of their row. Therefore, <math>D</math>, the only block without a unique digit, must be the top-center block.2 KB (346 words) - 14:28, 5 July 2013
- Prove that for any integer <math>n</math>, there exists a unique polynomial <math>Q</math> with coefficients in <math>\{0,1,...,9\}</math> s3 KB (507 words) - 14:31, 12 April 2023
- Prove that for any integer <math>n</math>, there exists a unique polynomial <math>Q(x)</math> with coefficients in <math>\{0,1,...,9\}</math ...as to be within the set <math>{0,1,...,9}</math>, <math>a_0</math> must be unique according to <math>n</math>. The linear term is determined by <math>10a_1 +2 KB (357 words) - 21:15, 8 July 2021
- ...h>, <math> b=-2ax_t </math>, so a unique <math> b </math>, and therefore a unique vertex, is determined for each point on the parabola. We therefore conclude2 KB (328 words) - 12:51, 5 July 2013
- ...in the middle, which is the third integer from the left. Since there is a unique mode of 8, both integers to the right of 5 must be 8s. Since the mean is 5,949 bytes (150 words) - 22:29, 17 December 2020
- ...h>, and each pair of <math>(a_0,b_0)</math> that we get will generate four unique solutions: <math>(a_0, b_0), (b_0, a_0), (-a_0, -b_0), (-b_0, -a_0)</math>4 KB (679 words) - 17:21, 26 July 2021
- Let <math>x, y</math>, and <math>z</math> be the unique lengths of the edges of the box. Each box has <math>4</math> edges of each1 KB (220 words) - 16:24, 28 June 2021
- ...a certain side, then all placements of the other people can be considered unique. WLOG, assign Angie to be on the side. There are then <math>3!=6</math> tot1 KB (180 words) - 14:04, 4 January 2024
- ...{n}}{2}\right\rfloor-51 = n.</cmath> To proceed, let <math>a</math> be the unique non-negative integer such that <math>a \leq \frac{\sqrt{n}}{2} < a+1</math>3 KB (563 words) - 03:57, 20 March 2024
- Hence, the <math>x_1</math> that satisfies this must be unique.9 KB (1,788 words) - 00:02, 30 January 2021
- Every number, including <math>2012</math>, has a unique representation by the sum of powers of two, and that representation can be2 KB (298 words) - 20:59, 5 February 2019
- ...is true for the three dots that are near <math>(1,1,1).</math> There is a unique <math>x</math> for which the rectangle drawn in red becomes a square. This5 KB (815 words) - 21:59, 19 September 2023
- ...campers, a parent or guardian must attend with the child. Epsilon Camp is unique in that it includes a parent program, which aims to support parents in meet4 KB (538 words) - 15:27, 6 January 2023
- ...so that the above two sets contain finitely many elements. But there is a unique such pair of roots of unity, making <math>a = </math> <math>-1/2 \pm i\sqrt1 KB (196 words) - 01:56, 25 November 2016
- The point is obviously unique, because the two maps have different scales (but if P and Q where two fixed ...ral similarity is a dilation combined with a rotation, and that there is a unique spiral similarity taking any segment to another segment, provided the four4 KB (712 words) - 21:57, 12 November 2023
- The mean, median, and unique mode of the positive integers 3, 4, 5, 6, 6, 7, and <math>x</math> are all13 KB (1,835 words) - 08:51, 8 March 2024
- The mean, median, and unique mode of the positive integers 3, 4, 5, 6, 6, 7, and <math>x</math> are all We know the unique mode must be <math>6</math>, so the mean must be the same number <math>6</m3 KB (446 words) - 12:25, 3 January 2024
- ...ords, when <math>b^2 > a-1</math>, the equation <math>f(z)=a+bi</math> has unique solution <math>z</math> in the region <math>\operatorname{Im}(z)>0</math>;4 KB (766 words) - 14:22, 8 October 2023
- We need to find the unique root, or <math>-\frac {b} {2a} </math> (discriminant is 0). The unique root is <math>-\frac {b} {2a} </math> as discriminant has to be 0.5 KB (969 words) - 19:14, 15 August 2023
- We do casework on the (unique) even constant term <math>d\in\{\pm2,\pm10,\pm50\}</math> in our product. F5 KB (750 words) - 01:10, 31 December 2022
- For <math>k=31</math>, one can verify that <math>N = 282</math> is the unique integer satisfying the inequalities.5 KB (826 words) - 09:29, 1 January 2023
- ...<math>79</math> integers in this interval, each of which corresponds to a unique complex number on the circle of radius <math>20</math> with positive imagin ...<math>51</math> integers in this interval, each of which corresponds to a unique complex number on the circle of radius <math>13</math> with positive imagin8 KB (1,393 words) - 19:00, 24 May 2023
- Lemma 1: Any unique configuration of <math>K</math> such that [Work In Progress]14 KB (2,076 words) - 20:29, 10 July 2023
- ...triangle of side length <math>s</math>, with the property that there is a unique point <math>P</math> inside the triangle such that <math>AP=1</math>, <math3 KB (432 words) - 23:22, 13 January 2021
- ...mon with the other side and the point which projects orthogonally onto the unique blue point on the third side). We can now assume all three sides contain at2 KB (373 words) - 23:40, 29 January 2021
- therefore 1. does not give any unique criteria.2 KB (321 words) - 15:48, 10 September 2018
- ...ath>b</math> are real numbers, the equation <math>3x-5+a=bx+1</math> has a unique solution <math>x</math> [The symbol <math>a \neq 0</math> means that <math> <math>\textbf{(A)}\ a = 0, b \text{ } \text{has a unique non-zero value}\qquad \\21 KB (3,242 words) - 21:27, 30 December 2020
- ...<math>e=9-b</math>, <math>f=9-c</math>. Notice how every palindrome has a unique compliment, and that the sum of a palindrome and its complement is <math>994 KB (612 words) - 22:42, 2 August 2021
- ...ngs to notice here. First, <math>\frac{1}{99}</math> has a very simple and unique decimal expansion, as shown. Second, for <math>\frac{0.\overline{01}}{99}</3 KB (453 words) - 09:35, 26 May 2023
- A list of 11 positive integers has a mean of 10, a median of 9, and a unique mode of 8. What is the largest possible value of an integer in the list?13 KB (2,066 words) - 14:08, 1 November 2022
- ...integers has a mean of <math>10</math>, a median of <math>9</math>, and a unique mode of <math>8</math>. What is the largest possible value of an integer in13 KB (2,011 words) - 21:54, 8 November 2022
- ...integers has a mean of <math>10</math>, a median of <math>9</math>, and a unique mode of <math>8</math>. What is the largest possible value of an integer in ..., 8, 8, 9, f, g, h, i, j</math>. In this case, since <math>8</math> is the unique mode, the rest of the integers have to be distinct. So we minimize <math>a,2 KB (369 words) - 17:44, 30 January 2021
- ...integers has a mean of <math>10</math>, a median of <math>9</math>, and a unique mode of <math>8</math>. What is the largest possible value of an integer in ..., 8, 8, 9, f, g, h, i, j</math>. In this case, since <math>8</math> is the unique mode, the rest of the integers have to be distinct. So we minimize <math>a,2 KB (277 words) - 10:13, 3 March 2015
- First let’s try to find the number of possible unique combinations. I’ll denote shiny coins as 1 and dull coins as 0. ...- 1 1 - - where the dashes can be replaced by 0s. This makes the number of unique combinations 7 choose 3 (if you’re counting w.r.t. shiny coins) OR 7 choo3 KB (558 words) - 00:25, 23 December 2020
- ...= 0</math>, then expression leads to <math>x^4 = 0</math> and only has one unique solution, so discard <math>b = 0</math> as a solution. The rest of the val2 KB (276 words) - 15:49, 20 June 2018
- ...h> be an infinite sequence of positive integers, Prove that there exists a unique integer <math>n\ge1</math> such that ...tonic decreasing. Therefore, because <math>f(0) > 0</math>, there exists a unique <math>N</math> such that <math>f(N-1) > 0 \ge f(N)</math>. In other words,3 KB (611 words) - 11:16, 8 July 2023
- ...h> be an infinite sequence of positive integers, Prove that there exists a unique integer <math>n\ge1</math> such that3 KB (529 words) - 19:35, 14 March 2021
- ...n <math>\frac{1}{2}</math> and <math>1</math>, meaning that there is not a unique value of <math>p</math>, so the answer is <math>\boxed{\text{D}}</math>.2 KB (240 words) - 14:50, 27 February 2018
- .... In fact, for this value of <math>a</math> the value of <math>b</math> is unique. What is the value of <math>b?</math>15 KB (2,348 words) - 17:20, 19 January 2024
- The product ages is 72. The largest age is unique. The smallest age is unique.2 KB (239 words) - 20:42, 25 July 2016
- ...336</math>, inclusive. Since each value of <math>n</math> corresponds to a unique way to write the sum, we get <math>336 + 1 = \boxed{\textbf{(C)}337}</math>4 KB (604 words) - 04:38, 2 November 2023
- Note: On the previous website, forums were associated with a unique ID that could be used in searching, similar to user ID numbers, but this is ...'ve used is usually quite easy, and since the keywords are generally quite unique, searching for them will often narrow results down to posts using [[LaTeX]]21 KB (3,334 words) - 23:53, 23 March 2022
- ==Unique factorization== ...unit (ring theory)|units]]. The first order of business is to explore when unique factorization holds.10 KB (1,646 words) - 15:04, 28 May 2020
- ...12})</math> is divided by <math>g(x)</math>. Then <math>r(x)</math> is the unique polynomial such that3 KB (579 words) - 11:56, 21 April 2024
- ...+ 99i,</math> where <math>i = \sqrt{-1}</math>. Let <math>z</math> be the unique complex number with the properties that <math>\frac{z_3 - z_1}{z_2 - z_1} \7 KB (1,163 words) - 16:43, 2 June 2022
- .... In fact, for this value of <math>a</math> the value of <math>b</math> is unique. What is this value of <math>b</math>?3 KB (568 words) - 17:14, 20 April 2024
- ...oplanar, and if the 3 points are distinct and non-collinear, they define a unique plane.228 bytes (39 words) - 13:45, 30 April 2016
- ...math>f(\frac{1}{q}) = p</math> where <math>p</math> and <math>q</math> are unique primes. Thus our 2 sets <math>S_1</math> and <math>S_2</math> is simply 2 s5 KB (1,045 words) - 11:01, 30 September 2022
- ...erate a subset <math>S</math> such that all non-negative integers n have a unique solution <math>a + 2b = n</math>.3 KB (584 words) - 07:56, 16 April 2018
- ...d. For your own benefit, look at all of the solutions, as they employ many unique techniques to get to the final answer.13 KB (2,115 words) - 16:21, 18 April 2021
- ...in its interior such that <math>ABP</math> is equilateral. There exists a unique pair <math>\{m, n\}</math> of relatively prime positive integers such that ...h>BC = 27, CA = 32,</math> and <math>AB = 35.</math> <math>P</math> is the unique point such that the7 KB (1,094 words) - 15:39, 24 March 2019
- ...are roots of <math>g(x)</math>. Using the fact that every polynomial has a unique factorization into its roots, and since the leading coefficient of <math>f(10 KB (1,708 words) - 23:16, 7 October 2023
- ...{12})}</math>, where <math>0 \leq k<24</math> that produce <math>24</math> unique results.3 KB (459 words) - 04:19, 2 February 2021
- ...are roots of <math>g(x)</math>. Using the fact that every polynomial has a unique factorization into its roots, and since the leading coefficient of <math>f(10 KB (1,861 words) - 10:47, 17 October 2021
- The number <math>n</math> can be viewed as having some unique digits in the front, following by a certain number of nines. We can then ev5 KB (798 words) - 14:35, 14 October 2022
- ...<math>4</math> fixed colorings. Hence, by Burnside's lemma, the number of unique colorings up to reflections and rotations is7 KB (1,057 words) - 23:27, 27 August 2022
- ...<math>2\cdot2=4</math>. The other two reflections also have <math>4</math> unique fixed diagrams. Therefore, applying Burnside's Lemma, we get <math>(60+4+4+3 KB (455 words) - 13:55, 15 February 2021
- ...3=78+99i,</math> where <math>i=\sqrt{-1}.</math> Let <math>z</math> be the unique complex number with the properties that <math>\frac{z_3-z_1}{z_2-z_1}~\cdot13 KB (2,252 words) - 15:46, 6 January 2024
- ...oint be at <math>O(0,0)</math>. Notice the 2 other points will determine a unique equilateral triangle. Let 2 points be on the <math>x</math>-axis (<math>B</22 KB (3,622 words) - 17:11, 6 January 2024
- Note that there is no case with Gg, Gg because all 49 cards are unique! ...a column with 2 colored cells. Call the unique row, "Row A", and Call the unique column, "Column B".11 KB (1,964 words) - 23:03, 29 January 2024
- ...them away from <math>\omega_1</math>. Therefore, one path can have only 1 unique vertex that has no arcs leading to it. There are 5 ways to choose the verte ...ed away from them and points to <math>\omega_1</math>. Therefore, only one unique vertex can have all arcs leading to it. There are 5 ways to choose the vert16 KB (2,867 words) - 17:51, 6 January 2024
- ...\frac{s-2}{2}</math> solutions for <math>(x,y)</math> which would create a unique type of isosceles triangle. We subtract two since <math>y</math> cannot be ...triangles in the polygon with <math>s+1</math> sides and <math>s+1</math> unique points for each type of triangle. Therefore, <math>\frac{s}{2}\cdot{(s+1)}-12 KB (2,069 words) - 20:45, 29 January 2024
- Case 3: We use 3 unique pairs, one that is not important.6 KB (1,015 words) - 18:02, 31 December 2023
- A* Summer Math Camp is a unique opportunity for interested and talented 4th - 12th grade students to improv1 KB (177 words) - 19:31, 15 December 2017
- There is a unique positive integer <math>n</math> such that<cmath>\log_2{(\log_{16}{n})} = \l There exists a unique strictly increasing sequence of nonnegative integers <math>a_1 < a_2 < …14 KB (2,073 words) - 15:15, 21 October 2021
- A list of <math>2018</math> positive integers has a unique mode, which occurs exactly <math>10</math> times. What is the least number14 KB (2,118 words) - 15:36, 28 October 2021
- A list of <math>2018</math> positive integers has a unique mode, which occurs exactly <math>10</math> times. What is the least number15 KB (2,237 words) - 23:08, 15 November 2023
- A list of <math>2018</math> positive integers has a unique mode, which occurs exactly <math>10</math> times. What is the least number2 KB (237 words) - 15:07, 14 June 2023
- ...have used the fact that every nonzero residue modulo <math>p</math> has a unique multiplicative inverse. Therefore, there is exactly one <math>k\in {1, 2, .2 KB (455 words) - 13:53, 21 April 2018
- ...have used the fact that every nonzero residue modulo <math>p</math> has a unique multiplicative inverse. Therefore, there is exactly one <math>k\in {1, 2, . Alternatively, every pair <math>(a_i, a_j)</math> has a unique <math>k</math> s.t <math>(a_i + ik) - (a_j + jk) \equiv 0</math> by the Lem4 KB (794 words) - 21:46, 20 March 2023
- <math>2016 = 2^5 \cdot 3^2 \cdot 7</math> is the unique prime factorization.4 KB (639 words) - 15:14, 28 November 2023
- ...ath>b</math> are real numbers, the equation <math>3x-5+a=bx+1</math> has a unique solution <math>x</math> [The symbol <math>a \neq 0</math> means that <math>866 bytes (150 words) - 19:01, 17 May 2018
- <math>\textbf{(A)}\ a = 0, b \text{ } \text{has a unique non-zero value}\qquad \\ \textbf{(C)}\ b = 0, a \text{ } \text{has a unique non-zero value}\qquad \\1 KB (223 words) - 19:06, 17 May 2018
- Star League 3- Week Summer Math Camp is a unique opportunity for interested and talented 4th - 12th grade students to improv1 KB (210 words) - 17:11, 22 May 2018
- Star League Summer Math Camp is a unique opportunity for interested and talented 4th - 12th grade students to improv2 KB (315 words) - 16:44, 25 February 2020
- Star League 3- Week Summer Math Camp is a unique opportunity for interested and talented 4th - 12th grade students to improv3 KB (413 words) - 17:41, 22 May 2018
- Star League 3- Week Summer Math Camp is a unique opportunity for interested and talented 4th - 12th grade students to improv3 KB (413 words) - 17:42, 22 May 2018
- Star League 3- Week Summer USACO Camp is a unique opportunity for interested and talented 6th - 12th grade students to improv3 KB (395 words) - 17:49, 22 May 2018
- ..., hackathons, and tech innovation. All students will create and complete a unique project to be published by the end of the program.941 bytes (135 words) - 12:56, 26 November 2019
- ...ke there are <math>10</math> values for <math>a</math> and <math>17</math> unique values for each <math>?</math>, giving a total of <math>170</math>, but tha7 KB (1,092 words) - 23:32, 5 February 2022
- ...gruent external tangents to the triangle each, there are really only three unique lengths, and two of these three lengths each make up a side. Thus, we can2 KB (306 words) - 18:26, 23 July 2019
- There is a unique angle <math>\theta</math> between <math>0^{\circ}</math> and <math>90^{\cir ...tan untrue. This must also be true in order for <math>\theta</math> to be unique.)7 KB (1,109 words) - 00:40, 28 January 2024
- .... Similarly, <math>g(x)</math> maps each residue mod <math>|a|</math> to a unique residue mod <math>|b|</math>, so <math>|b|\ge|a|</math>. Therefore, <math>|4 KB (816 words) - 18:53, 7 April 2021
- By monotonicity, we can see that the point <math>P</math> is unique. Therefore, if we find another point <math>P'</math> with all the same prop4 KB (654 words) - 20:13, 12 April 2021
- ...>n + j + 1</math> distinct elements and so in this process we only add one unique element to sets among <math>C_{j+1}</math>. There are <math>2n - (n+j) = n-7 KB (1,288 words) - 19:17, 26 April 2023
- ...ust be <math>9</math> or <math>1</math>. However, since all the digits are unique, <math>T</math> = <math>9</math>.2 KB (385 words) - 12:27, 21 August 2023
- Notice also that each of these values of <math>a</math> will give a '''unique''' corresponding value of <math>b</math>, since <math>\frac{4a-8}{a-4} = 42 KB (421 words) - 15:20, 10 April 2021
- Unique solution: https://youtu.be/I-8xZGhoDUY4 KB (668 words) - 15:51, 25 February 2021
- There is a unique angle <math>\theta</math> between <math>0^\circ</math> and <math>90^\circ</7 KB (1,254 words) - 14:45, 21 August 2023
- simply asks for the absolute value of the sum of the product of the distinct unique roots of the polynomial taken two at a time or10 KB (1,689 words) - 17:02, 8 February 2024
- ...ne unique way to factor a positive integer into a product of primes. This unique prime factorization plays an important role in solving many kinds of number35 KB (5,882 words) - 18:08, 28 June 2021
- ...tarrow x=\frac{z+y}{2}</math>. As we are told that <math>y^2</math> has a unique value, we can use either option.3 KB (520 words) - 18:27, 14 January 2020
- There is a unique positive real number <math>x</math> such that the three numbers <math>\log_6 KB (1,040 words) - 18:31, 29 January 2023
- ...integers from <math>0</math> to <math>20</math>, they will correspond to a unique solution, forming a 1-1 correspondence between the numbers <math>b_1</math>6 KB (1,036 words) - 00:59, 25 February 2021
- ...ve for any '''integral''' constant c, and that this family of equations is unique.4 KB (680 words) - 01:42, 4 May 2024
