KR102232382B1 - Method for virtually performing scientific experiment - Google Patents

Abstract

The present invention relates to a virtual science experiment method. More specifically, the present invention relates to a virtual science experiment method in which, by outputting various experimental tools as blocks on a user interface screen and designing experiments based on the experimental tool blocks, even children who are not familiar with experiments can easily design and conduct various experiments on their own by changing the type of the selected experimental tool block, the arrangement order of the selected experimental tool block, and the type and operating conditions for each experimental tool block.

Description

Method for virtually performing scientific experiment

The present invention relates to a virtual science experiment method, and more specifically, by outputting various experiment tools as blocks on a user interface screen and designing experiments based on the experiment tool blocks, children who are not familiar with the experiment can easily design various experiments. It is a virtual science experiment method that allows children to design and experiment with various experiments by changing the type of the selected experimental tool block, the order of placement of the selected experimental tool block, and the operation type and operating conditions for each experimental tool block. It is about.

Education is a valuable asset that prepares for the future, so enthusiasm for education is growing day by day. As interest in such education increases, various educational methods are being developed.

In general, science textbooks for acquiring basic science knowledge for children are designed to acquire science knowledge through theoretical learning for each subject and experiments using sub-text (experimental materials).

In particular, science education does not unilaterally inject scientific knowledge, but requires students to learn the principles through experiments, so experiment practice is one of the important educational methods.

The school curriculum is pedagogically analyzed for what kind of experiments should be conducted to acquire what knowledge in each grade, and the process has already been established, and the optimum conditions for each experiment required for the science curriculum are the preliminary process or the development of equipment. It is calculated in the process, and students can obtain sufficient educational effect only if they can perform experiments at a set level.

Since conventional science textbooks consist of simply learning theories and knowledge, they cannot arouse the fun and interest of children, as well as the degree of participation and learning in a state where children's fun and interest are weak. There was no problem.

Moreover, in the case of conventional science textbooks, various experimental tools must be provided in order to design experiments by students themselves and to perform various types of experiments to solve students' questions, and when experimenting by changing the operating conditions of the experiment tools even in the same type of experiment. There is a problem in that the experiment tools must be initialized or cleaned every time, and the test materials must be consumed for each experiment.

In order to solve this problem, various simulation methods for virtual experiments have been developed and used. However, conventional simulation methods for virtual experiments are mainly limited to simulation of circuit design using circuit elements or simulation of robot control based on the designed circuit design. In addition, in the case of a simulation for a conventional virtual experiment, the experiment design method is complicated, so that it is difficult for children to easily design various experiments and experiment.

The present invention is to solve the problems of the conventional scientific experiment method mentioned above. The virtual scientific experiment method according to the present invention outputs various experiment tools as blocks on an interface screen, and easily conducts experiments based on the experiment tool blocks. It is to provide a virtual scientific experiment method that can be designed.

Another object of the present invention is to set the type of the selected experimental tool block, the arrangement order of the selected experimental tool block, and the operation type and operating condition for each experimental tool block differently, and allow children to design and experiment various experiments by themselves. It is to provide a virtual scientific experiment method.

Another object of the present invention is to provide a virtual scientific experiment method capable of comparing and confirming experimental results according to operating conditions even in the same experiment by setting only the operating conditions of the experiment tools differently according to the user's selection.

Another object of the present invention is to provide a virtual scientific experiment method that guides the user to an incorrect experiment design when the design of the experiment tool selected by the user is wrong or the design of the comparative experiment is wrong, so that the user can perform an accurate experiment. To provide.

In order to achieve the object of the present invention, the virtual science experiment method according to the present invention includes the steps of displaying a plurality of experiment tool blocks in a first area of a user interface screen, and an experiment tool block selected by a user among the plurality of experiment tool blocks. In the second area of the user interface screen, the steps sequentially displayed according to the selection order, the selected experiment tool block and the experiment result mapped to the selection order are searched, and the experiment video corresponding to the experiment result is displayed on the third user interface screen. It characterized in that it comprises the step of outputting to the area.

In the virtual scientific experiment method according to the present invention, possible actions for each experiment tool are allocated to the experiment tool block selected by the user, and the action of the experiment tool is selected and displayed in a second area of the user interface screen.

In the virtual science experiment method according to the present invention, a condition input window for inputting the operation condition of the selected experiment tool block is activated in the second area of the user interface screen, and is mapped to the operation condition of the experiment tool block input through the condition input window. It is characterized in that it searches for the result of the experiment.

Preferably, in the virtual science experiment method according to an embodiment of the present invention, when a user command for a comparison experiment is input, the same comparison experiment tool block as the experiment tool block sequentially displayed in the second area of the user interface screen, and the same experiment. It characterized in that it further comprises the step of displaying in the fourth area of the user interface screen the comparison group experiment design consisting of the tool operation and the same selection order.

In the virtual science experiment method according to an embodiment of the present invention, a comparison condition input window for inputting a comparison operation condition of the selected comparison experiment tool block is activated in the fourth area of the user interface screen, and input through the comparison condition input window. The comparison experiment result mapped to the comparison operation condition of the experiment tool block is searched, and a comparison experiment video corresponding to the comparison experiment result is output in the fifth area of the user interface screen.

Preferably, the virtual scientific experiment method according to an embodiment of the present invention includes the steps of determining whether the experiment design is normal based on the operation of the selected experiment tool block, the selection order of the experiment tool block, and the operation condition, and whether the experiment design is normal. It characterized in that it further comprises the step of outputting the determination result on the user interface screen.

The virtual scientific experiment method according to an embodiment of the present invention compares the experimental design information with the reference experimental design information stored in the database, and if the reference experimental design information that matches the experimental design information exists in the database, the normal experiment design is performed. It is characterized by judging.

The virtual scientific experiment method according to the present invention has various effects as follows.

First, the virtual science experiment method according to the present invention outputs various experiment tools as blocks on the user interface screen and designs experiments based on the experiment tool blocks, so that even children who are not familiar with the experiment can easily design various experiments. have.

Second, the virtual science experiment method according to the present invention is designed by changing the type of the selected experimental tool block, the arrangement order of the selected experimental tool block, and the operation type and operation condition for each experimental tool block. You can experiment.

Third, in the virtual scientific experiment method according to the present invention, only the operating conditions of the experimental tools are set differently from each other according to the user's selection, so that even the same experiment can be confirmed by comparing the experimental results according to the operating conditions.

Fourth, the virtual scientific experiment method according to the present invention guides the user to an incorrect experiment design when the design of the experiment tool selected by the user is wrong or the design of the comparative experiment is wrong, thereby helping the user to perform an accurate experiment.

1 is a diagram for explaining a virtual scientific experiment system according to the present invention.
2 is a functional block diagram illustrating a virtual scientific experiment apparatus according to the present invention.
3 is a flowchart illustrating a virtual scientific experiment method according to the present invention.
4 and 5 illustrate an example of a user interface screen for creating experimental design information or comparative experiment design information.
6 is a flowchart illustrating an example of a method of determining experimental design information according to the present invention.
7 is a diagram illustrating an example of a user interface screen in which a comparison experiment is possible according to the present invention.
8 is a diagram for explaining another example of a user interface screen in which a comparison experiment is possible according to the present invention.
9 is a flowchart illustrating an example of a method of searching for an experiment result according to experimental design information or comparative experiment design information according to the present invention.
10 is a diagram illustrating an example of a guide message for guiding an error in experimental design information according to the present invention.
11 is a diagram for explaining an example of a guide message for guiding an error in comparative experiment design information according to the present invention.

It should be noted that the technical terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be interpreted as generally understood by those of ordinary skill in the technical field to which the present invention belongs, unless otherwise defined in the present invention, and is excessively comprehensive. It should not be construed as a human meaning or an excessively reduced meaning. In addition, when a technical term used in the present invention is an incorrect technical term that does not accurately express the spirit of the present invention, it should be replaced with a technical term that can be correctly understood by those skilled in the art.

In addition, the singular expression used in the present invention includes a plurality of expressions unless the context clearly indicates otherwise. In the present invention, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various elements or various steps described in the invention, and some of the elements or some steps are included. It should be interpreted that it may not be, or may further include additional components or steps.

In addition, it should be noted that the accompanying drawings are only for easily understanding the spirit of the present invention and should not be construed as limiting the spirit of the present invention by the accompanying drawings.

Hereinafter, a virtual scientific experiment method according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a diagram for explaining a virtual scientific experiment system according to the present invention.

Referring to FIG. 1 in more detail, a user terminal 10 and a management server 50 are connected to a network 30. Here, the network 30 may include various types of wired or wireless networks capable of transmitting and receiving data between the user terminal 10 and the management server 50.

Meanwhile, the user terminal 10 refers to a terminal such as a desktop, laptop, or smartphone capable of downloading and executing a virtual science experiment application and performing a virtual experiment according to an experiment design created by an input user command. The experiment design information and experiment results created in the user terminal 10 may be transmitted to the management server 50, which stores the experiment design information and the experiment results by classifying them by a user identifier, and the user terminal 10 ), or the stored experimental design information or experimental results requested from nearby user terminals are provided to the user terminal 10 or nearby user terminals.

Preferably, the management server 50 receives user login information from the user terminal 10 and controls access to the management server 50, and according to the request of the user terminal 10 or automatically, the virtual science according to the present invention The experiment application is updated with the scientific experiment application stored in the user terminal 10.

2 is a functional block diagram illustrating a virtual scientific experiment apparatus according to the present invention. Here, the virtual science experiment device can be understood as a user terminal that downloads and executes a virtual science experiment application.

Referring to FIG. 2 in more detail, the database unit 120 includes experimental design information such as experimental tools that can be used for experimental design, possible actions allocated for each experimental tool, and operating conditions that can be set for each experimental tool, and experimental design. Experiment result information mapped to the information and video information mapped to the experiment result are stored.

The experiment design unit 110 outputs a user interface screen for designing an experiment to the user interface unit 105, and the experiment design unit 110 selects a user command for selecting a type of experiment tool and an operation type of the selected experiment tool. When a user command to execute, a user command to select an execution order of the selected experiment tool, and a user command to select an operating condition of the selected experiment tool are input, the experiment is designed with experimental design information according to the input user command.

Here, the experiment design unit 110 displays and controls a user interface screen for designing an experiment. In order to select an experiment tool according to an input user command, the experiment design unit 110 displays and controls a block for each experiment tool in the first area of the user interface screen. The selected experimental tool block and operating conditions of each experimental tool are displayed and controlled in the second area of the user interface screen according to the user command. The experiment design unit 110 provides the experiment design information displayed on the second area of the user interface screen to the experiment operation unit 130 according to a user command.

The experiment operation unit 130 searches an experiment result mapped to the experiment design information based on the experiment design information, and outputs an experiment video corresponding to the searched experiment result to a third area of the user interface screen.

Meanwhile, when a user command for a comparison experiment is input, the experiment design unit 110 displays the same comparison experiment tool block as the experiment tool block sequentially displayed in the second area in the fourth area of the user interface screen, and controls the input. The comparison operation condition of each comparison experiment tool is displayed and controlled in the fourth area of the user interface screen according to a user command.

The comparison experiment operation unit 150 receives the comparison experiment design information displayed in the fourth area of the user interface screen according to a user command from the experiment design unit 110, and is mapped to the comparison experiment design information based on the comparison experiment design information. A comparison experiment result is searched, and a comparison experiment video corresponding to the searched comparison experiment result is output to the fifth area of the user interface screen.

Preferably, the normal determination unit 170 determines whether the experimental design or the comparative experiment design has been properly written before outputting the experiment video to the user interface screen or outputting the comparison experiment video to the user interface screen, and based on the determination result. It is possible to generate a guide message indicating that the experimental design or the comparative experiment design was written as normal or abnormal, and output the generated guide message on the user interface screen.

The report creation unit 190 stores an experiment result performed by a user or a list of comparison experiment results, and may generate a report on an experiment result performed by the user or a comparison experiment result, and output it to a user interface screen. In the generated report, the experiment tool selected by the user and the arrangement order of the experiment tool, the operation type and operation condition of the experiment tool are described, and information on whether the experiment design or the comparative experiment design is normal or abnormal may be displayed together. Preferably, the report creation unit 190 may transmit the created report to the management server according to a user command.

3 is a flowchart illustrating a virtual scientific experiment method according to the present invention.

Referring to FIG. 3 in more detail, a user interface screen for inputting experimental design information or inputting comparative experimental design information is output-controlled to the display unit (S110).

Experimental design information or comparative experiment design information displayed on the user interface screen is determined according to the input user command (S130).

Based on the determined experimental design information or comparative experimental design information, an experiment result or comparative experiment result corresponding to the experimental design information or comparative experiment design information is searched (S150), and an experiment video mapped to the searched experiment result or the comparative experiment result, or The comparison experiment video is displayed and controlled on the user interface screen (S170).

In the virtual scientific experiment method according to the present invention, experimental design information or comparative experiment design information is created based on an experiment tool block. FIGS. 4 and 5 are An example is shown.

As illustrated in FIG. 4, an experiment tool block is displayed in _{the first area R 1 of the user interface screen.} Experimental tools are tools used for experimentation and are displayed as blocks. When the user selects any one of the experimental tool blocks displayed in the first area R1, a list of possible actions assigned to each experiment tool is activated, and the user selects one from the activated action list. You can choose.

The second area R2 of the user interface screen is an area for editing experimental design information, and the third area R3 of the user interface screen is an area for outputting an experiment result corresponding to the experimental design information.

As shown in FIG. 5, a user selects an experiment tool block displayed in the first area R1 of the user interface screen and an operation type of the experiment tool and sequentially arranges them in the second area R2 of the user interface screen. . Preferably, the arrangement order of the experiment tool blocks arranged in the second area R2 of the user interface screen may be changed according to an input user command.

A condition input window for inputting operation conditions for each experimental tool block sequentially arranged in the second area R2 of the user interface screen is activated, and an operation condition of the experiment tool is input and displayed in the condition input window according to a user command.

The experiment operation unit searches for an experiment result corresponding to the experimental design information displayed on the second area R2 of the user interface screen, and outputs the corresponding experiment result to the third area R3 of the user interface screen. Preferably, an experiment video corresponding to the experiment result is output in the third area R3 of the user interface screen. In the experiment video, experiment tools may start to be sequentially displayed according to the experimental design information, or the displayed experiment tools may be sequentially disappeared from the user interface screen.

Preferably, when a stopwatch or ruler is arranged in the second area of the user interface screen, the time or length may be output together with the experiment result. More preferably, when a stopwatch or ruler is placed in the second area of the user interface screen, the time can be output in the third area of the user interface screen in which the experiment result is output according to the user command, or the length of the desired position can be measured and output together. have.

The database unit stores an experiment result according to the experimental design information and an experiment video corresponding to the experiment result, and the experiment operation unit may search and output an experiment video corresponding to the experiment result from the database unit. However, in another embodiment of the present invention, the experiment operation unit may generate an experiment video according to experiment design information displayed on the second region of the user interface screen, and output the generated experiment video to the third region of the user interface screen.

6 is a flowchart illustrating an example of a method of determining experimental design information according to the present invention.

Referring to FIG. 6 in more detail, an experiment tool block selected according to a user command is identified in a first area of the user interface screen (S131), and among operation types assigned to the selected test tool block, the selected test tool block is selected according to a user command. The type of operation of the experiment tool is determined (S132).

Meanwhile, in the second area of the user interface screen, an operation condition of the experiment tool input through the condition input window for each experiment tool block selected according to a user command is determined (S133), and the experiment tool arranged in the second area of the user interface screen The order of the blocks is determined (S135). In the present invention, the user places the experiment tool block displayed in the first area of the user interface screen in the second area of the user interface screen, and sets the arrangement order and operating conditions of the experiment tool block in the second area of the user interface screen. Since you can design an experiment just by doing it, you can easily design an experiment under different operating conditions using a variety of experimental tools.

Meanwhile, when a comparison experiment is to be performed by comparing it with the experiment input through steps S131 to S135, it is determined whether a user command for performing the comparison experiment is input (137). When a user command for performing a comparison experiment is input, the comparison experiment design information must be determined. First, the experimental design information input through steps S131 to S135 is determined, and the remaining experimental design information excluding operating conditions among the experimental design information Output control is performed in the fourth area of the user interface screen using the same comparative experiment design information (S138). That is, in the fourth area of the user interface screen, the comparison experiment tool block, the operation type of the comparison experiment tool block, and the arrangement of the comparison experiment tool block are displayed in the same order as the experimental design information. The comparison condition input window is activated.

When the comparison operation condition of the comparison experiment tool is input through the activated comparison condition input window, comparison experiment design information is determined based on the input comparison operation condition (S139).

7 is a diagram illustrating an example of a user interface screen in which a comparison experiment is possible according to the present invention.

Referring to FIG. 7 in more detail, an icon (comparative group) for executing a comparative experiment compared with experimental design information is activated on the user interface screen. When a user command for a comparison experiment is input through the control group icon, previously created experimental design information is extracted, and the same comparison experiment design information as the rest of the experimental design information excluding operating conditions among the experimental design information is output and controlled on the user interface screen. . When the comparison condition input window for inputting the comparison operation condition of the comparison experiment tool is activated, the user inputs the comparison operation condition to complete the preparation of the comparison experiment design information.

When the comparison experiment design information is completed, the comparison experiment result mapped to the comparison experiment design information is searched, and the corresponding comparison experiment result is displayed on the user interface screen. Preferably, a comparison experiment video corresponding to the comparison experiment result is output on the user interface screen. In the comparison experiment video, the comparison experiment tool may be sequentially displayed according to the comparison experiment design information, or the displayed comparison experiment tool may be sequentially disappeared from the user interface screen.

In this way, when the user selects the control group icon and inputs a user command for a comparison experiment, the previously created experiment design information is extracted, and the comparison design information is the same as the other experimental design information excluding operating conditions among the experimental design information. By outputting on the interface screen, even a young user can easily and accurately perform comparison experiments by changing only the comparison operating conditions of the comparison testing apparatus.

8 is a diagram for explaining another example of a user interface screen in which a comparison experiment is possible according to the present invention.

On the first user interface screen, an icon (comparison group) for executing a comparison experiment compared with the experimental design information is activated. When a user command for a comparison experiment is input through the control group icon, the second user interface screen is changed to a second user interface screen in which the experiment and the comparison experiment can be checked at the same time.

FIG. 8 shows an example of a second user interface screen. Referring to FIG. 8 in more detail, experiment design information is output to the second'area R2' of the changed second user interface screen. The experimental design information is extracted, and the comparative experimental design information, which is the same as the other experimental design information excluding the operating conditions, is output in the fourth area R4 of the user interface screen. When the comparison condition input window for inputting the comparison operation condition of the comparison experiment tool is activated, the user inputs the comparison operation condition to complete the preparation of the comparison experiment design information.

That is, the experiment design information and the comparative experiment design information are simultaneously output on the second user interface screen, so that the operating conditions of the experiment tool can be compared and checked.

When a user command is input through the start icon activated in the second'area R2', the experiment result corresponding to the experimental design information is searched and output to the third' area R3' of the user interface screen, and the fourth area When a user command is input through the start icon activated in (R4), the comparison experiment result corresponding to the comparative experiment design information is searched and output to the fifth area R5 of the user interface screen. Preferably, an experiment result corresponding to the experimental design information or the comparative experiment design information, or an experiment video mapped to the comparison experiment result, or a comparative experiment video may be output together.

In this way, when the user selects the control group icon and inputs a user command for a comparison experiment, the experiment design information and the comparison experiment design information are also displayed on the same user interface screen, allowing the user to display the experiment design information and the comparison experiment design information. This makes it easy to compare and check the result of the experiment.

9 is a flowchart illustrating an example of a method of searching for an experiment result according to experimental design information or comparative experiment design information according to the present invention.

Referring to FIG. 9 in more detail, it is determined whether the experimental design information or the comparative experimental design information input through the user interface screen is determined, and whether the determined experimental design information or the comparative experimental design information is normal (S151).

The experimental design information consists of the operation of the experiment tool block, the selection and arrangement order of the experiment tool block, the operation condition of the experiment tool, etc. As an example of determining whether the experimental design information is normal, the same reference experimental design information as the experimental design information is stored in the database. It can be determined whether the experimental design information is normal by whether it is stored or not.

As another example of determining whether the experimental design information is normal, it may be determined whether the experimental design information is normal based on whether the selection and placement order of the experimental tool blocks coincides with the reference arrangement order of the experimental tool blocks stored in the database.

On the other hand, an example of determining whether the experimental design information and the comparative experimental design information are normal is based on the premise that the experimental design information is normal. When there is one comparison operating condition, the comparative experiment design is normal, and when there are two or more comparison operating conditions different from the operating conditions, it may be determined that the comparative experiment design information is incorrect.

If the experimental design information or the comparative experimental design information is normal, the experimental result or the comparative experiment result corresponding to the experimental design information or the comparative experimental design information is searched (S153), and the experimental result corresponding to the experimental design information or the comparative experimental design information, or When the comparison experiment result is searched, the experiment result or the experiment video mapped to the comparison experiment result or the comparison experiment video is searched or generated (S155).

On the other hand, when it is determined that the experimental design information or the comparative experiment design information is not normal, or the experiment result or the comparative experiment result corresponding to the experimental design information or the comparative experiment design information cannot be searched, a guide message to guide this is displayed on the user interface screen. Control the output to (S157).

10 is a diagram illustrating an example of a guide message for guiding an error in experimental design information according to the present invention.

As shown in Fig. 10, based on the experimental design information such as the arrangement order of the experimental tool blocks selected on the user interface screen, the type of operation of the experimental tool blocks, and the operating conditions of the experimental tools, the experimental design information is stored in the database. If the experimental design information does not match or the arrangement order of the experimental tool blocks does not match the reference arrangement order of the experimental tool blocks stored in the database, a guide message indicating that there is an error in the experimental design information is displayed on the user interface screen. .

For example, in an experiment that dissolves piece of sugar, if the glass bar is first stirred before adding water and piece of sugar to a beaker, the same reference experimental design information does not exist in the database, or the same order of placement of the experimental tool blocks exists in the database. If not, it is determined that there is an error in the experimental design information and a guide message is output.

11 is a diagram for explaining an example of a guide message for guiding an error in comparative experiment design information according to the present invention.

Looking more specifically with reference to FIG. 11, when the experimental design information and the comparative experimental design information are compared and two or more comparative operating conditions that are different from the operating conditions among the comparative experimental design information, for example, the number of pieces of sugar and the rotation of the glass rod If the numbers are different at the same time, it is determined that the comparative experiment design information is incorrect, and a guide message for notifying that an error exists in the comparative experiment design information is output.

Meanwhile, the above-described embodiments of the present invention can be written as a program that can be executed on a computer, and can be implemented in a general-purpose digital computer that operates the program using a computer-readable recording medium.

The computer-readable recording medium includes a magnetic storage medium (e.g., ROM, floppy disk, hard disk, etc.), an optical reading medium (e.g., CD-ROM, DVD, etc.), and a carrier wave (e.g., the Internet. Transmission).

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical idea of the attached registration claims.

10: user terminal 30: network
50: management server 105: user interface
110: experimental design unit 120: database unit
130: experimental operation unit 150: comparative experiment operation unit
170: normal determination unit 190: report writing unit

Claims (7)

delete delete delete Displaying a plurality of experiment tool blocks in a first area of a user interface screen;
Sequentially displaying an experiment tool block selected by a user among the plurality of experiment tool blocks according to a selection order in a second area of the user interface screen; And
Retrieving the experiment result mapped to the selected experiment tool block and the selection order, and outputting an experiment video corresponding to the experiment result in a third area of the user interface screen,
The experiment tool block selected by the user is assigned possible actions for each experiment tool, and the action of the experiment tool is selected and displayed in the second area of the user interface screen,
In the second area of the user interface screen, a condition input window for inputting the operation condition of the selected experiment tool block is activated,
Searching for the experiment result mapped to the operating condition of the experiment tool block input through the condition input window,
When a user command for a comparison experiment is input, the comparison group experiment design consisting of the same comparison experiment tool block, the same experiment tool operation, and the same selection order as the experiment tool block sequentially displayed in the second area of the user interface screen, A virtual scientific experiment method comprising the step of displaying in a fourth area of a user interface screen.
The method of claim 4, wherein in the virtual scientific experiment method
In the fourth area of the user interface screen, a comparison condition input window for inputting a comparison operation condition of the selected comparison experiment tool block is activated,
The comparison experiment result mapped to the comparison operation condition of the experiment tool block input through the comparison condition input window is searched, and a comparison experiment video corresponding to the comparison experiment result is output in a fifth area of the user interface screen. A virtual science experiment method.
The method of claim 5, wherein the virtual scientific experiment method is
Determining whether the experimental design is normal based on an operation of the selected experimental tool block, a selection order of the experimental tool block, and an operating condition of the experimental tool; And
A virtual scientific experiment method comprising the step of outputting a determination result of whether the experimental design is normal on a user interface screen.

The method of claim 6, wherein the virtual scientific experiment method is
A virtual scientific experiment method, comprising: comparing the experimental design information with the reference experimental design information stored in the database, and determining that the reference experimental design information coinciding with the experimental design information exists in the database as a normal experimental design.

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