An Empirical Study on Improving the Learning Effect of Physics Experiment Course in High School by Simulation Experiment Software

Physics experiment course in senior high school plays a very important role in cultivating students’ scientific thinking and scientific inquiry ability. How-ever, in teaching practice, due to large experimental error, poor demonstration effect and lack of experimental conditions, it cannot achieve the expected teaching effect. This study integrates the simulation experiment software into the physics experiment classroom in senior high school, in order to optimize the experimental teaching quality and promote the development of students’ inquiry ability. In this study, 45 students from class 5 and 47 students from class 6 of grade 1 in a high school in Beijing were selected as the experimental class and the control class respectively. The demonstration experiment of “synchronous satellite orbit transfer launch” and the exploration experiment of “uniform linear motion” were carried out with the help of simulation experimental software. The results showed the teaching based on simulation experimental software plays a positive role in teachers’ experimental teaching, reducing experimental errors, improving self-efficacy and teaching performance. On the other hand, limited by the simulation experiment environment, the simulation experiment could reduce the trial and error opportuni-ties of excellent students, and affect the development of students’ innovation ability to a certain extent.


Physics Experiment Teaching Plays an Important Role in Physics Teaching
Physics experiment plays an important role in physics teaching, with the feature of intuitive, vivid and visual, which can help students understand the laws of physics and master knowledge better. The new physics curriculum standard also points out that "the inclusion of scientific inquiry in the curriculum content aims to enable students to experience the inquiry process similar to scientific research workers, actively acquire physical knowledge, understand scientific inquiry methods, develop scientific inquiry ability, experience the fun of scientific inquiry, and develop a realistic scientific attitude and innovative scientific spirit" (Ministry of Education of the People's Republic of China, 2012). Hofstein and Mamlok-Naaman reported in their paper that experiment can help develop students' scientific processing skills, problem solving skills, and draw their attention and develop positive attitudes towards scientific approaches according to objectives of fundamental science education (Hofstein & Mamlok-Naaman, 2007). Garnett, Garnett and Hackling mentioned that experiment helps students develop their conceptual understandings, application skills and techniques (Garnett, Garnett, & Hackling, 1995). According to the Association for Experiential Education (AEE), experiential learning is a philosophy and methodology where educators engage directly in motivating learners and reflection is focused on improving knowledge, developing skills (Holtzman, 2011).

There Are Still Many Problems in the Traditional Physics Experiment Teaching
While, there are still many problems in traditional physics experiment teaching. The several reasons for the ineffectiveness of experiment teaching such as the lack of time and planning (Backus, 2005;Booth, 2001;Hackling, Goodrum, & Rennie, 2001;Jones, Gott, & Jarman, 2000); large scale courses (Cheung, 2008a;Prades & Espinar, 2010); teachers' low level attitudes toward experiment, negative perception and beliefs (Brown, Abell, Demir, & Schmidt, 2006;Cheung, 2008b;Roehrig & Luft, 2004;Windschitl, 2003); lack of effective and sufficient course materials (Kiviahdem, 2005;Lawson, 2000); challenges related to classroom management (Deters, 2005;Jones, Gott, & Jarman, 2000); lack of explanation of laboratory security precautions (Deters, 2005;Staer, Goodrum, & Hackling, 1998). For the teaching practice, most of the experimental operation steps are cumbersome and the parameter configuration is negligible, which causes a fallacious experimental effect. Due to the lack of careful control of the experimental steps and insufficient thinking, some experiments have great errors and fail to meet the expected teaching goals, which makes many students have a strong sense of frustration and fear of doing experiments, and affects their formation of scientific thinking and scientific literacy. In addition, some experiments are too macro or lack of necessary equipment, which will seriously affect the quality of physics teaching.

The Simulation Experiment Software Provides Assistance for Physics Experiment Teaching
The emergence of a large number of physics-assisted teaching software provides a rich teaching resource environment for teachers to carry out auxiliary teaching. VR technology, as one of the three cutting-edge technologies in the field of information technology, has developed well in the construction of virtual laboratories. In addition, there are many simulation experiment softwares with lightweight features that can meet the needs of classroom experiment teaching and students' exploration experiments. Physics teaching software can be used as laboratory tools during computer assisted experimentation (CAEx) (Zakaria, Phang, & Pusppanathan, 2019), teaching aids, communication and information tools (Alev, 2003;Beaufils, 2005), a simulator to replace or supplement experiments, as well as modeling and scientific calculation tools (Cox, 2012). For example, "simulation physics laboratory" is a fully open software designed for physics teaching, which provides several object models and specific physical environments. At the same time, a variable editor and a program function programmer are provided for the set physical quantities. As long as the physical model or process can be conceived in the brain, it can be built with the software (Wang & Wang, 2014). Through the experimental environment constructed by computer modeling technology, simulation experiment software enables people to decompose, delay or pause the experimental process, and provides convenient conditions for students to deeply explore physical phenomena.

Research Questions
This research is based on the teaching practice of the research school and the current information resource conditions, starting from the need to solve the current problems of physics experiment teaching, using "simulation physics laboratory" to carry out physics experiment teaching, exploring the effective mode of simulation experiment software assisting physics experiment teaching and specific effects on core literacy training. Based on this, this research proposes the following research questions:

The Important Position of High School Experiment Course in Physics Teaching
High school physics experiment is divided into demonstration experiment and inquiry experiment. Demonstration experiment is helpful for teachers to visually guide students' experiments, while inquiry experiment can better reflect students' dominant position than demonstration experiment. It is of great help to cultivate students' creativity, pioneering spirit and innovation consciousness, and greatly improve students' hands-on and brain skills (Tian & Liu, 2019).
The importance of experiment course in physics teaching is mainly shown in the following four aspects: first, experiment is intuitive, vivid and visual, and it is a purposeful operation behavior, so it can cultivate students' practical operation ability, and good experiment design can cultivate students' interest and stimulate their thirst for knowledge. Second, the experiment provides students with specific physical situations to master knowledge effectively, creates a good learning environment, and enables students to obtain necessary and sufficient perceptual knowledge. Third, the experiment itself is a method of scientific research, allowing students to learn scientific research methods from it. Experiments are an effective way to train students in creative consciousness and scientific methods. Fourth, when students observe and operate experiments, they need not only keen observation ability and proficient operation ability, but also certain analysis and generalization ability, imagination ability, logical thinking ability and so on. Therefore, experiments can cultivate students' abilities, practical and realistic attitude, rigorous and meticulous style and other good scientific quality. Fifth, the development of experimental skills and the mastery of physical knowledge can promote each other, and the mutual knowledge transfer between them is of great significance to cultivate students' innovation ability (Tao, 1996).
High school physics experiment stipulated in the new curriculum standard is not only an important basis of physics teaching, but also an important content, method and means of physics teaching. Researchers have made a good example of integrating experiments into high school classrooms and attracting students to participate in scientific research (Cheng, Gerhard, Gendronand, & Ziffle, 2019). Hu believes that in addition to completing the required content of the experimental course, physical experiment teaching also undertakes the objective of optimizing the elements of scientific inquiry and paying attention to the cultivation of students' scientific thinking and scientific inquiry ability (Hu & Zhang, 2020).

The Deficiency of Physics Experiment Teaching
The traditional classroom demonstration leads to the poor effect of the experi- strator is used to demonstrate, the students only see the particle motion of the simulated waveform, and it does not reflect the real wave process. This affects the effect of demonstration experiment in some cases. For another example, when demonstrating the isochronous experiment of horizontal throwing motion and free falling body motion with horizontal throwing and vertical falling instrument, although the sound of two moving objects landing can be heard at the same time, it is difficult to reflect the isochrony of their motion process, so it is hard to analyze the law of the motion process of two objects. Students passively participate in experiments and lack the learning spirit of independent inquiry. High school physics experiment teaching has always overemphasized the leading role of teachers, while ignoring students' independent inquiry learning. For example, when students carry out experiments, most of them just follow the experimental procedures prescribed by the teacher, although they can finally complete the experiment smoothly and get satisfactory experimental results. But this kind of experiment actually goes against the purpose and requirements of the experiment. In the process of this kind of experiment, the students' experimental ability, analytical ability and problem-solving ability are not cultivated, let alone the cultivation of exploration spirit and creativity.

Simulation Experiment Software and Its Application in Physics Experiment Teaching
There are many types of simulation experiment software in experiment teaching. Zhang analyzed the necessity and feasibility of using simulation software to carry out physics experiments, and also proposed that assessing students' abilities from the experiment link can stimulate their interests of learning physics simulation experiments (Zhang, 2019). Some researchers proposed by using virtual experiment teaching platform, teaching software and virtual experiment, can have a good teaching effect, better feasibility (Daineko, Dmitriyev, & Ipalakova, 2017;Li & Xu, 2015) and can help learners understand physics phenomena better (Bostan, 2011). Matlab as an easy-to-use scientific computing software has powerful functions such as data acquisition, numerical analysis, matrix calculation, signal processing, data visualization, calculation simulation and graphics processing (Li & Xu, 2015;Zhong & Zhang, 2010). Anling reproduced the visualization pattern of interference and diffraction through Matlab simulation software (Anling, 2012). The simulation results are completely consistent with the experimental images, which is very beneficial for guiding students' experimental operations. Origin software is another software assist physics teaching, which is simple and easy to DOI: 10.4236/jss.2021.911023 314 Open Journal of Social Sciences learn. It has intuitive, graphical, object-oriented window menus and toolbar operations and gradually recognized as the fastest, most flexible, and easiest data analysis drawing software (Huo, 2015). Zeng and Liu took the section of "free falling movement" as an example, using Origin software to analyze and plot the data of the inquiry experiment, and applying modern information technology to assist physics teaching, which can stimulate students' core literacy of physics (Zeng & Liu, 2019

Research Context
Two typical experiments were selected in this study, among which "synchronous satellite orbit change launch" was the demonstration experiment, and the "uniform speed linear motion" experiment was an active and exploratory experiment with students as the main body.
There is a lesson "the application of gravitation artificial earth satellite" in the chapter of "the law of gravitation" in the physics textbook for senior one of the People's Education Edition. Although the principle and application of "synchronous satellite" are not stated in detail in the textbook, the application of "synchronous satellite" often appears in students' exercises, and students are also very interested in the knowledge content of synchronous satellite launch. However, this kind of experiment cannot be demonstrated in kind, and it is difficult to explain clearly only by drawing in the classroom. For this reason, this research selects the demonstration courseware in the resource library of "Simulation Physics Laboratory" to demonstrate and explore the parameters of the three cosmic speeds and their specific modes of action.
The first volume of the high school physics curriculum is a student experiment called "Linear Motion with Uniform Variable Speed". The purpose of this experiment is to verify and study the law of linear motion with uniform speed.
The principle of the experiment is to add a fixed external force to a stationary Open Journal of Social Sciences experimental trolley, the object starts to move, and the movement of the object is recorded on a paper tape through a dot timer, and then the acceleration of the car is calculated by analyzing the points on the paper tape that record the car's movement. In the traditional teaching mode, the needle type dot timer is used.
When the dot timer works, the needle tip dot on the paper tape will form intermittent resistance, which will affect the constant force of moving objects. If we can't guarantee the action of the object under the condition of constant force, the motion of the object is not uniform variable speed motion in the strict sense.
However, due to the existence of air resistance and friction, as well as the impact of dot timer, the experimental error is difficult to control, often appear unsatisfactory data, resulting in the experimental effect is not ideal. Therefore, this study introduces the "simulation physics laboratory" software, in the virtual space to create experimental situations, to eliminate the air resistance problems that cannot be overcome under real conditions, so that students can summarize the physical laws through independent exploration and thinking.

Participants
This study selected the students who were enrolled in the first grade (5) and grades (6) of Beijing A high school in September 2016 as the research objects to carry out a one-year study. The numbers of the two classes were 45 and 47 students, and in accordance with the teaching requirements of the first-year physics experiment curriculum in high school, conducted experimental research on the information technology supporting high school physics experiment teaching activities.

Research Process
The purpose of this study is to explore the impact on the quality of teaching on the basis of "simulation physics laboratory" assisted inquiry physics experiment. Based on the "cooperation inquiry" teaching mode, the experimental activity mode is implemented with the process shown in Figure 1. The above inquiry activities include two aspects of teacher's experimental guidance and students' experimental activities, mainly around the standardized process of experimental teaching.

Research Process Control
In order to ensure the preciseness and scientificity of the research and reduce the influence of non-control factors on the research results, this study follows the following basic norms.

Premise Guarantee of Research
1) The experimental class and the control class are taught by the same teacher, the teaching content and the amount of homework are the same, and the total amount of students' learning time is the same; 2) At the first beginning, we conducted a questionnaire survey on the basic situation of the students in the two classes, and found that there were no significant differences in the attitude, motivation and self-efficacy of the students in the two classes; from the examination results and entrance examination, there is no significant difference between the two classes.
3) Before the formal start of the physical experiment, the teacher will spend five minutes to introduce the experimental requirements and equipment. Then the students in the experimental class need to use the simulation laboratory software to do 15 minutes of demonstration and exploration activities, and then they can use the real equipment to start the experiment. After listening to the teacher's lecture, the students in the control class can directly enter the experimental link.

Organize Experimental Activities in Groups
Both the experimental class and the control class organized experimental activities in the form of group cooperation. In order to ensure the preciseness of the research, the initial learning ability and learning style of the students in the experimental class were investigated before grouping. The evaluation of students' initial ability includes their physics test scores, information technology mastery, Considering the requirements of laboratory environment and class reporting time, the author divided 45 students in the class into 8 groups with 6 students in each group, and the last group was 3 students, each group included boys and girls. The composition of the group members is arranged according to the principle of complementary differences in initial ability and learning style. Finally, the group members jointly select a student with strong sense of responsibility and dedication as the leader of the learning group. During the process, teachers need to monitor and evaluate the students' process and give real-time guidance.

Simulation Demonstration Experiment to Enhance Teachers' Teaching and Students' Desire to Explore
The software of simulation physics laboratory is used to demonstrate the three cosmic velocities and the working principle of synchronous satellites. Its development process is summarized as: preview before class, report in class, teacher guided questioning, experimental demonstration of speed and surrounding relationship, students' independent experimental exploration and experimental summary.

Introduction before Experiment 1) Preview and report
The teacher arranges the preview homework for the students before class. The students should understand the two methods of launching the satellite to the synchronous orbit through independent learning, that is, straight-line launching and orbit changing launching, and compare the differences between the two, and show them in the classroom report.

2) Guide questions and description of the situation
The teacher showed the picture to the students, and made a guiding question to guide the students to think: a) why can the satellite be fixed at a certain point in the sky and not fall down? b) How does this satellite get into orbit and stay stable?

Pre Demonstration Experiment
Use the "Simulation Physics Laboratory" software to demonstrate the relation- Teacher asked: what are the basic conditions for a satellite to make a circular motion at a certain height above the ground? Who will provide these conditions?
Student answer: there are two basic conditions for an object to fly in a circle: one is that it needs centripetal force, which is mainly provided by the gravity of the earth on the satellite, that is, universal gravitation. The second is the speed of the satellite in circular flight, which is mainly provided by the rocket engine.

2) A process of orbit change
Guide students to think. Then the teacher made a demonstration in the simulation laboratory. When the satellite is running at the speed of 7.9 kilometers per second, let the students observe the orbit of the satellite; after that, change the speed parameters and do the demonstration again. Let the students observe carefully and make a simple analysis.
3) The second orbit change process The teacher guides the students to think about how fast the satellite should run in order to maintain its stability? How high should it be? Then the teacher made a demonstration with the simulation laboratory software.
The teacher directly changed the parameters of the satellite and demonstrated the process of the satellite entering the synchronous orbit from the apogee. The results are shown in Figure 3.

Students' Independent Experiment Exploration
Students are required to use the "Simulation Physics Laboratory" software to independently change the speed parameters of the satellite to simulate the operation of the artificial satellite, record the experimental parameters and the  corresponding effects, and think about the satellite's orbit-changing launch process.

Experiment Summary
In the process of demonstration experiment, students only pay attention to observe the phenomenon of the experiment, and lack of specific analysis of the problems. Therefore, teachers often use questions and other ways to guide students to adjust their concerns and guide students to think about the centripetal force of satellite operation and the linear speed of satellite operation, in order to inspire students to combine prior knowledge with current knowledge, and induce students' deep thinking and exploration desire.

Simulation Exploration Experiment Aiming at Autonomous Inquiry and Discovery Learning
"Uniformly variable linear motion" is a very important experiment for the first grade, focusing on the relationship between Newton's second law, acceleration, distance per second and other parameters. In the traditional teaching mode, the movement of the trolley on the slope is mainly recorded by a timing timer. This research introduces the "Simulation Physics Laboratory" software in the experiment, creates an experimental situation in the virtual space, eliminates the problems of air resistance, friction and dotting resistance that cannot be overcome under real conditions, and can set parameters at will based on your own assumptions. It is convenient for students to think and summarize the laws of physics through independent exploration.

Lead in: Teachers Assign Inquiry Tasks
The teacher asked the students to use the "simulation laboratory" to complete the following experiments, and think about the change law of the displacement value in the process of the experiment. The inquiry tasks assigned by teachers are shown in Figure 4. In the design of inquiry task, we pay attention to the progressive and guiding of the problem, and try to guide the students to think and summarize the physical laws through the gradual in-depth task.

The Process of Group Experiment
The experimental exploration steps of each group mainly include: set questions on the platform and simulate experiments; record data; analysis, calculation and result demonstration.
The facts showed that each group successfully completed the inquiry experiment according to the requirements of teachers.

1) The process of independent exploration
Preliminary study 1: after applying 10N force to a static 1kg ball, the trajectory of the ball is shown in Figure 5.
Further probe 2: after applying 20n force to a static 1kg ball, the trajectory of the ball is shown in Figure 6.

2) Induction and analysis
After completing the above test, the data as shown in Table 1 is obtained.
Summarizing the data in Table 1, X0, X1, X2, X3, X4 and X5 respectively represent the distance of the ball from the origin every second, and S1, S2, S3, S4 and S5 represent the distance between adjacent balls, the students were surprised to find that the ΔS (1,2,3,4) of these three sets of data were constant 0.1, 0.2, 0.3, which corresponded to the applied forces of 10 N, 20 N and 30 N, so some students guessed whether ΔS (1,2,3,4) is proportional to force F? When some students in Group 5 proposed the conjecture that ΔS (1,2,3,4) may be proportional to F and inversely proportional to m, some students agreed, but some thought it might be an accidental phenomenon, not necessarily a universal law. After discussion, the members of this group unanimously decided to design another two sets of data to verify the above rules.

Group Report and Evaluation
In order to make the experimental learning results of each group have an impact in the whole class and realize the knowledge sharing within the class, two classes are arranged to carry out comprehensive report and discussion when the students' experimental exploration is basically completed.
In this study, quantitative and qualitative evaluation methods were used to evaluate the experiment. In the aspect of quantitative evaluation, it mainly includes four aspects: individual self-evaluation, group internal evaluation, group mutual evaluation and teacher evaluation. Qualitative evaluation is mainly a series of classroom comments, such as the full affirmation of the students' shining points and the correction of their shortcomings in the experimental activities.

Results and Discussion
In this study, a one-year teaching experiment was conducted in the experimental class. At the end of the school year, the teaching experiment was evaluated, analyzed and summarized. From the three dimensions of students' learning attitude, physical experiment ability and final score, whether the simulation experiment software applied to the experimental class can improve the students' learning effect was analyzed.

The Positive Effect of the Intervention of Simulation Laboratory on Students' Achievement
This study mainly focuses on the students with learning disabilities who have more difficulties in physics experiments, so the differences in performance are mainly aimed at the students with learning disabilities. After the implementation of physics experiment teaching, independent sample t-test is conducted for the post-test results of the two classes. The results are shown in Table 2.
Before organizing physics experiment teaching with the aid of simulation laboratory software, there is no significant difference between the test scores of the experimental class and the control class, even the average score of the experimental class is slightly lower than the control class. However, when the simulation laboratory software aided teaching is adopted in the experimental class, the results of the students with learning difficulties in the experimental class have been greatly improved, and there is a significant difference between the experimental class and the control class.
The results show that the average score of students in the experimental class is 72.5, which is higher than 62.6 in the control class; moreover, the standard deviation of the results of the experimental class is 3.68, which is less than that of the control class, indicating that the students' results of the experimental class are more stable; in addition, the results also show that the proportion of excellent students in the experimental class is also higher than that in the control class. The above results indicate that adding simulation experiment software to physics experiment course plays a very important role in improving students' physics performance, maintaining the stability of students' performance and improving the proportion of excellent students in class. If the test scores are taken as dependent variables, class type as grouping variables, and gender, source of students and other information as covariates, the covariance analysis will also find that the test scores of the experimental class are significantly different from those of the control class. This shows that the proper introduction of simulation laboratory software in physics experiment class has a significant effect on the students who have difficulties in physics experiment class.
Although physics experiment only accounts for about 15% of students' physics examination, the weight is not high. However, if students can actively use physics experiment learning software to analyze physical laws and physical processes, it will help students fully understand physical laws and truly construct physical models. From the overall score statistics of the semester, it is also found that the students' scores of the experimental class have increased to a certain extent. The physics experiment teaching based on simulation laboratory improves the learning achievement of backward students. At the same time, it also shows that the experimental learning has a positive transfer impact on students' learning of basic physics knowledge.

The Intervention of Simulation Laboratory Has a Positive Impact on Students' Learning Attitude
Based on the data of the experimental class, we can see that the intervention of simulation laboratory has a significant positive impact on students' learning.

Encourage Independent Inquiry, Cultivate Students' Awareness of Independent Inquiry
From the performance of the students in the experimental class, the students focus on the classroom presentation from the beginning (that is, only focus on the experimental points and experimental conclusions given by the teacher), and gradually transition to their exploration and trial, and finally the students' active use in solving physics learning problems.

Improve Learning Interest and Self-Efficacy of Backward Students
The intervention of simulation experiment software reduces the proportion of experimental failure of students with learning difficulties. Before carrying out the real physical experiment, first launch the experiment with the simulation software to form a stable cognition, and then do the physical experiment based on the real equipment can help students make fewer mistakes and be less blamed. In addition to 50% of the students who had better physics performance, nearly a quarter of the students with learning difficulties in the experimental class gradually changed from the initial fear of physics learning to the interest in physics learning, and their learning confidence increased significantly. Therefore, the intervention of simulation experiment software can improve the self-efficacy of students with learning difficulties in physics experiment class.

Affect Students' Thinking Mode of Solving Physical Problems
According to the results of physics final examination, the methods of solving physics problems of students in experimental class have changed significantly. In the examination questions, there is an operation question that requires students to choose methods to solve physical problems. The final methods given by students mainly include the following five kinds. The results showed that the problem-solving strategies of the experimental class are significantly higher than those of the control class. The statistics are shown in Table 3.
It can be seen from Table 3: first of all, the number of students in the two classes who choose "drawing analysis" and "example calculation analysis" is very high, because this is a common solution that students learn from teachers' usual  teaching. Secondly, there are obvious differences between the two classes in the item of "using experimental methods", which shows that through the development of research activities, the students' awareness of using experimental methods to solve problems in the experimental class is enhanced. Finally, "with the help of physics learning software" to analyze and solve this problem, the two classes of students formed a sharp contrast, because through teaching activities, almost all the students in the experimental class have the experience of using the physics learning software "simulation physics laboratory", and also realize the advantages of using the learning software to solve problems.

The Development and Analysis of Students' Physics Experiment Ability under the Influence of Simulation Experiment Environment
The investigation of students' physics experiment ability is mainly based on the "Evaluation Scale of Middle School Students' Physics Experiment Ability". After one semester of experimental teaching, the author measured the physics experiment ability of all students in the two classes with this table. The statistical results are shown in Table 4.
It can be seen from Table 4 that the scores of students in the experimental class are significantly better than those in the control class, and there are more students in the high-segment experimental class. By analyzing the causes of this phenomenon, the author thinks that because teachers often use the learning software of simulation physics laboratory to guide students to prepare for experiments, and strengthen the demonstration of experimental operation process and the correction of wrong operation methods, students have stronger control ability and more confidence in physical experiments.
In addition, from the conclusion of the experimental examination, the students in the experimental class are more excellent in the choice of experimental instruments, the standard degree of experimental operation, and the analysis and processing of data.

Emerging Problems and Limitations
With the advancement of simulation experiment software in physics experiment teaching, the author also discovered some new problems, which are not conducive  to the realization of the strategic goal of talent cultivation in high school physics experiment teaching.
First of all, in physics experiment class, some students rely too much on simulation software, and even do not want to participate in the experiment in the real experimental environment. They think the experiment can be done better with the help of simulation software, and ignore the cultivation of practical, ability and ability to deal with special situations in the process of real physics experiment.
Secondly, part of the simulation experiment software is not sufficient in the structure and exception handling, which leads to few options for students to explore independently, imprisons students' thinking to a certain extent, and is not conducive to the cultivation of students' divergent thinking ability.

Simulation Experiment Software Plays a Significant Role in
Improving Middle School Physics Experiment Teaching 6.1.1. Promote the Development of Students' Independent Inquiry Ability With the help of the platform of "simulation physics laboratory", the students have a positive performance, which is very gratifying. On the platform, students set the experimental parameters and environmental conditions on the corresponding template. After starting the experiment, it can automatically present the process of object motion change, and can change the parameters and then experiment. Therefore, it is very convenient and efficient to use it to explore some experiments. After the experiment of this teaching activity, the students have a strong interest in using the learning software of simulation physics laboratory, which also has a positive impact on the development of inquiry activities in the information technology environment.

Reduce the Proportion of Physics Experiment Failure and
Improve the Self-Efficacy By introducing simulation software into physics experiment teaching, students can systematically preview the whole experiment process and even explore various possible phenomena with the help of simulation software before they come into contact with real physics experiment equipment, which can reduce students' mistakes in the process of participating in real experiments and improve the proportion of successful experiments. Therefore, it plays an important role in reducing the frustration of students with learning disabilities participating in DOI: 10.4236/jss.2021.911023 328 Open Journal of Social Sciences experimental activities, and even can improve their self-efficacy to a certain extent.

Simulation Experiment Environment Can't Replace Real Physics Experiment
From the perspective of understanding the laws of physics and students' preview before carrying out real experiments, the simulation experiment environment is of great significance to the reform of physics teaching. However, from the perspective of training students' operation skills, the traditional real environment experiment still has irreplaceable advantages.

Too Much Dependence on the Simulation Experiment Environment Will Affect the Cultivation of Students' Practical Ability
The simulation experiment software shows good effect in promoting students to grasp the experimental principle and understand the laws of physics. At the same time, using the platform, students can be guided to carry out the demonstration operation of physics experiment, which can reduce students' damage to experimental instruments due to wrong operation and improve the efficiency of experiment.
However, in physics experiment teaching, excessive reliance on simulation experiment environment deprives students of the opportunity to directly participate in the experiment, which is not conducive to the cultivation of hands-on ability and experimental skills, and is not conducive to students' all-round development.

The Simulation Experiment Confined to the Simulation Experiment Environment Will Reduce the Chance of Trial and Error for Excellent Students
The cultivation of innovation ability requires every student to have the opportunity to try and explore independently. Although simulation experiment software provides students with the option of independent exploration in experiment design, this option is limited to the thinking mode of software designers, and has certain limitations. Excessive reliance on the simulation environment will reduce students' chances of trial and error to a certain extent, imprison students' thinking to a certain extent, and affect the development of divergent thinking.
In a sense, no matter how exquisite and complete the simulation software is, it is impossible to achieve the experimental effect in the real experimental scene. In the face of the real experimental scene, the experimental design, experimental effect and experimental phenomenon can never be completely replaced by the simulation experimental environment.

Not All Physical Experiments Are Suitable for Simulation
Experiments Through this teaching research, the author also realized that: the development of teaching activities supported by information technology for physical experiment

Schools Should Still Pay Attention to the Construction of Laboratories
The means of information technology cannot replace students' hands-on experiments, especially the development of inquiry activities. When the conditions are met, students should explore in the real scene as much as possible. Therefore, it is necessary to vigorously promote the construction of modern laboratory, minimize the impact of environmental factors on physical experiments, and improve the popularity of students' physical experiment equipment.