In order to explore teachers' practice of Models and Modeling Knowledge (MMingK), this study taked three middle school Physical Science teachers as research objects, one expert teacher with a Ph.D. in science education and two teachers with a MSc in science education. The purpose of this study was to investigate the differences in the presentation of Ming-PCK of teachers with different perspective on models and teaching experience in modeling when they were instructing the unit Acid and Base. This study contained two major aspects of Models and Modeling Knowledge (MMingK) (Teachers' views on models and scientific models) and Modeling-Pedagogical Content Knowledge (Ming-PCK) (The teaching objectives of teacher modeling and the knowledge and practice of modeling teaching strategies.) Data were collected from interviews before, during and after the course, classroom observations and questionnaires. After the teaching, a nature of model questionnaire and modeling learning experience questionnaire were conducted for a class of three teachers. After the survey, nine students (Divided into high, medium and low level students) were recommended by the instructors to conduct an interview to look into the perspective and learning experience of models of the students. The result showed that, 1.Teacher with more experience in modeling could accurately and consistently state out the application in science teaching and learning. (Such as through the particle animation model to let students understand the process of Acid-base neutralization) The teacher was skilled in combing modeling process with teaching and he valued microscopic models and utilized dynamic models to assist students in constructing the links between the components of models. (For example, through the PhET interactive software, students could construct volume and molar concentration changes after adding water) 2.Teacher with no experience in modeling teaching could not clearly state out the definitions of models. In the classroom, his instruction primarily based on lectures and explaining scientific theories. He focused less on the microscopic and image (For example, microscopic acid-base ions were rarely present in course design.), and he concentrated more on the application of models (Used the acid-base concept to solve questions). 3.Teacher with no experience in modeling teaching could not clearly state out the definitions of models. In the classroom, his instruction primarily based on lectures and explaining scientific theories. He focused less on the microscopic and dynamic models, and he concentrate more on the application of models. 4.Students’ responses to the two questionnaires did not reach statistically significant differences. It showed that implicit teaching could not effectively improve students' generalized model view. According to the interview data, most students thought that the model was an entity, which was consistent with the results of the questionnaire; five students in the middle and high ability group mentioned that the models could be used to explain and test (such as the degree of earthquake resistance.) Some students believed that self-operation or design experiments were helpful for learning scientific theories.