2) problem solving
解题
1.
In electromagnetics education,knowledge teaching,logic reasoning and problem solving should all be permeated through the whole teaching course,which can help the students overcome the confusion and improve their ability in solving problems.
在电磁学教学中,用具体实例将知识点窍、逻辑推理、解题过程贯穿于整个解题过程中,帮助学生克服解题困惑,提高解题能力。
2.
In this paper,by a topic changeable solution and the ponderation we hope it can help the student to have the sense of alternative thingking in the problem solving on higher mathematics.
通过对一题多变的求解与思考,引发学生在解题过程中加深对高等数学变通性思维能力的训练与培养。
3.
The important function in problem solving is discussed in this paper through researching its effect in hinting information,reducing thought,stimulating association,kindling inspiration,etc.
从暗示信息、约简思维、刺激联想、诱发灵感等方面探讨了数学符号在解题中的重要作用。
3) solution
[英][sə'lu:ʃn] [美][sə'luʃən]
解题
1.
Discussion on the relationship between auxiliary function method and the solution in higher mathematics;
关于辅助函数法与高等数学解题关系的探讨
2.
It is concluded that the employment of such methods can make the solution of geometrical problems concise, clear and quick.
就运用射影变换、仿射变换方法进行高等几何解题的过程进行了阐述 ,旨在揭示这些变换方法的运用 ,可以使几何解题变得简洁、清晰、迅速 ,值得提
3.
Through the solution and exploration of four different types of questions,the author s aim is to train and develop students ability of divergent thinking in solving questions of linear algebra.
通过对四种类型问题的求解与思考,引发学生在解题过程中,加深对线性代数学习中发散思维能力的训练与培养。
5) solving problems
解题
1.
In solving mathematics problems, applies some mathematical methods, such as the transformed induction thought, Algebra to geometry transformation thought, equation thought, parameter thought and so on, can raise students’ability of thinking logically and solving problems.
在数学解题中应用化归思想、数形结合思想、方程函数思想、参数思想、整体思想等方法,培养学生的逻辑思维能力和解决问题能力。
2.
Due to the variable subjects and methods of solving problems in Higher Mathematics,substitution will not only flexibly develop the ways of problem solving,but also an effect of simplification.
高等数学题目类型繁多,解题方法灵活多变,其中代换法不但能开拓灵活巧妙的解题思路,而且有化难为易、化繁为简之功效。
3.
It doesn t matter that students make mistakes in solving problems, the important thing is to pay much attention to, find and know the causes leading to mistakes.
解题是大学物理学习中的重要一环。
6) solving
[英][sɔlv] [美][sɑlv]
解题
1.
Through analysing and solving living examples,the author of this paper expounds the widespread application of vector quantitative product in solving process.
通过实例的分析和求解 ,阐述了矢量数性积在解题中具有非常广泛的应用。
2.
The problems of starting thought in physical solving were discussed and the three methods about choosing thought beginning were developed.
讨论了物理解题思维的起点问题,结合实例重点研究了思维起点的3种方法,即模型法、临界点法和隐含条件法,教学实践证明,这些方法在学生智能培养中能达到事半功倍的效果。
3.
In this paper,the problems of starting thought in physical solving were discussed and the five methods about choosing thought beginning were developed.
讨论了物理解题思维的起点问题 ,提出了选择思维起点的四种方法 ,即模型法、假想法、临界点法和图形法。
补充资料:题解
1.关于诗文典籍题旨的阐释。亦指汇编成册的此类专集。唐吴兢有《乐府题解》。 2.关于数理化等学科中问题的推演﹑计算﹑解答。亦指汇集成册的此类专集。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条