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Home > Documents >  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let...

 · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let...

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Page 1:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 2:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 3:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 4:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 5:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 6:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 7:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 8:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 9:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 10:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 11:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 12:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 13:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 14:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 15:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 16:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 17:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 18:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 19:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 20:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest
Page 21:  · In [1 , Wei-Quan Dong, Jia-Yu Shao, and Chun-Fei Dong proved the following theorem. (Il)). Let — THEOREM 1.1. — m axer ( D) D is a primitive dig mph u.qth n vertices and shortest

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