The key elements to promote the digitalization of educational mathematics are the digitalization of educational resources, educational environment and learning methods.

1. Digitization of educational resources

This includes teaching materials, documents, videos, audio and other forms. Through digital technology, we can convert these resources into digital format for storage, transmission and appreciation. In this way, students and teachers can access these resources anytime and anywhere, regardless of geographical location or time.

2. Digitization of educational environment

This means that the learning and teaching environment needs to be designed and transformed at the digital level. For example, smart classroom, distance education and online learning platform are all concrete manifestations of the digitalization of educational environment. Realize the digitalization of education and make education more fair, efficient and high-quality.

3. Digitization of learning style

In the digital environment, learning methods also need digital transformation. For example, using digital tools for inquiry learning, collaborative learning and autonomous learning can not only improve learning efficiency, but also enhance students' learning ability and innovative thinking.

Digital mathematics skills;

1, using digital tools

Using digital tools can better process and analyze mathematical data. For example, using spreadsheets or mathematical software for statistics, drawing and simulation can be more efficient and accurate. In addition, using computer programs or APP for mathematical calculation, proof and reasoning can save time and energy and improve efficiency.

2. Digital modeling

Mathematical models can be used to simulate and predict problems in the real world. For example, the statistical analysis model can predict the changing trend of stock prices, and the physical model can simulate the spread of diseases. Through digital modeling, we can better understand and solve practical problems.

3. Data visualization

Presenting data in the form of charts can better understand and analyze the laws and relationships of data. For example, scatter charts can be used to represent the relationship between two variables, bar charts can be used to compare the sizes of different types of data, and three-dimensional charts can be used to represent three-dimensional geometric structures.