1.
Some Improvement About Item-by-item Differential Theorem for Function Series;
关于函数项级数逐项微分定理的改进
2.
The mid-value theorems is the basic theorems in the calculus.
微分中值定理是微分学中的基本定理。
3.
qualitative theory of ordinary differential equation
常微分方程定性理论
4.
Sub-differential of Convex Functions and the Converse of the Mean Value Theorem
凸函数的次微分与微分中值定理的逆定理
5.
The Analytic Behaviour of Intermediat Point ξ in the Mean Value Theorem for Differentials;
微分中值定理中“中值点”ξ的分析性质
6.
Analytical Proof of the Lagrange Intermediate Value Theorem of Calculus;
Lagrange微分中值定理的分析证明法
7.
STRONG LAW OF THE MEAN FOR MEASURE-UNITYOF THE LAWS OF THE MEAN FOR CALCULUS;
测度强中值定理──微积分中值定理的统一
8.
A Stability Theorem For Differential Equations With Fast And Slow Components;
具有快速与慢速分量微分方程的稳定性定理
9.
PRINCIPLE, VERIFICATION ADN ERROR ANALYSIS OF OPTICAL MICROMETER
光学测微器的原理、检定及误差分析
10.
Mechanical Theorem Proving in Differential Geometry about Curves on Surface;
微分几何曲面上曲线定理的机器证明
11.
Embedding Theorems and the Discreteness of the Spectrum of a Class of Differential Opertors;
嵌入定理及一类微分算子谱的离散性
12.
The Extent of Comparison Theorems of Ordinary Differential Equations to the Higher Order;
一阶常微分方程比较定理的高阶推广
13.
Shallowly Discusses in the Differential Theorem of Mean Proof the Auxiliary Function;
浅谈微分中值定理证明中的辅助函数
14.
Oscillation Theorems for Second Order Strong Sublinear Differential Equations;
二阶强次线性微分方程的振动性定理
15.
A Picard Theorem for Iterative Differential Equations;
一类迭代微分方程的Picard型定理
16.
Discussion on Differential Mean Value Theorem "mean value point";
关于微分中值定理“中值点”的讨论
17.
The Basic Theorem of Integrable-differential on the Stronger Schwarz Derivative;
关于强Schwarz导数的微积分学基本定理
18.
The Simple Proof for Solution of Higher order Linear Differential Equations;
高阶线性微分方程解构造定理的简证