NMTC 2023 Stage II Finals - Junior BHASKARA (Grade 9 & 10) - Problems and Solutions
Join Trial or Access Free ResourcesJoin Trial or Access Free ResourcesFind integers $m, n$ such that the sum of their cubes is equal to the square of their sum.
$PQR$ is an acute scalene triangle. The altitude $PL$ and the bisector $RK$ of $\angle QRP$ meet at $H$ ($L$ on $QR$ and $K$ on $PQ$). $KM$ is the altitude of triangle $PKR$; it meets $PL$ at $N$. The circumcircle of $\triangle NKR$ meets $QR$ at $S$ other than $Q$. Prove that $SHK$ is an isosceles triangle.
Let $a_i(i=1,2,3,4,5,6)$ are reals. The polynomial
$$
f(x)=a_1+a_2 x+a_3 x^2+a_4 x^3+a_5 x^4+a_6 x^5+7 x^6-4 x^7+x^8
$$
can be factorized into linear factors $x-x_i$ where $i \in{1,2,3, \ldots, 8}$.
Find the possible values of $a_1$.
There are $n$ (an even number) bags. Each bag contains at least one apple and at most $n$ apples. The total number of apples is $2 n$. Prove that it is always possible to divide the bags into two parts such that the number of apples in each part is $n$ .
$a, b, c$ are positive reals satisfying
$\frac{2}{5} \leq c \leq \operatorname{minimum}{a, b} ; a c \geq \frac{4}{15}$ and $b c \geq \frac{1}{5}$. Find the maximum value of $\left(\frac{1}{a}+\frac{2}{b}+\frac{3}{c}\right)$
The sum of the squares of four reals $x, y, z, u$ is 1 . Find the minimum value of the expression $E=(x-y)(y-z)(z-u)(u-x)$. Find also the values of $x, y, z$ and $u$ when this minimum occurs.
Let $n$ be a positive integer; and $S(n)$ denote the sum of all digits in the decimal representation of $n$. A positive integer obtained by removing one or several digits from the right hand end of the decimal representation of $n$ is called a truncation of $n$. The sum of all truncations of $n$ is denoted as $T(n)$. Prove that $S(n)+9T(n) = n$.
$ABCD$ is a cyclic quadrilateral. The midpoints of the diagonals $AC$ and $BD$ are respectively $P$ and $Q$. If $BD$ bisects the $\angle AQC$, then prove that $AC$ will bisect $\angle BPD$.
