1.
Constructing A Set of n~2-orders Pandiagonal Magic Square by Using a N-orders Semi Magic Square;
用n阶半幻方造n~2阶泛对角线幻方
2.
Orthogonal Semi pandiagonal Latin Squares and Pandiagonal Magic Squares
正交半泛对角线拉丁方与泛对角线幻方
3.
ORTHOGONAL PANDIAGONAL LATIN SQUARES AND PANDIAGONAL MAGIC SQUARE(Ⅱ)
正交泛对角线拉丁方与泛对角线幻方(Ⅱ)
4.
A set of new formula of constructing arbitrary 4k-orders conserve square sum pandiagonal magic square;
造任意4k阶保块和泛对角线幻方的又一组公式
5.
To Realize Construction of Pandiagonal Magic Square with Program Composition;
用程序设计实现全对角线幻方的构造
6.
Using Programs to Realize Construction of Pandiagonal Magic Square with Natural Square;
用程序实现自然方阵构造奇数阶全对角线幻方
7.
diagonal line traversing a shield from the upper right corner to the lower left.
从右上方到左下方的对角线。
8.
The two diagonals of a square cross in the centre.
正方形两条对角线交于正方形的中心。
9.
Draw a diagonal line to divide the square into two triangle
画一条对角线,把正方形分成两个三角形
10.
Use the vector dot product to find the obtuse angle between two diagonals of a cube.
用矢量点积求立方体的两条对角线所夹的钝角。
11.
Draw a diagonal line to divide the square into two triangles.
画一条对角线,把正方形分成两个三角形。
12.
set off in a catty-corner direction across the vacant lot.
朝着空地的对角线方向出发。
13.
you can compute the area of a square if you know the length of its sides.
正方形的两条对角线相等,。
14.
Th two diagonals of a square cross in the centre.
正方形的两条对角线在中间相交。
15.
Improved parallel algorithm for solving block-tridiagonal linear equations
块三对角线性方程组的并行直接解法
16.
Dissipativity of linear θ-methods for Volterra functional differential equations
Volterra泛函微分方程线性θ-方法的散逸性
17.
From corner to corner;diagonally.
对角地从角到角地,对角线地,对顶地
18.
Spatial Cooperation Axis between Yunnan and Guangdong under the Condition of "Pan-pearl River Delta";
构建“泛珠三角”条件下的滇粤空间合作轴线