Google Drive is one of the best file sync apps that let you store all of your files online alongside your Google Docs documents, and keep them synced with all of your devices.
MySQL is currently the most popular database management system software used for managing the relational database.MySQL Integrations
Google Drive + MySQLUpdate Row in MySQL when New File in Folder is created in Google Drive Read More...
Google Drive + MySQLDelete Row in MySQL when New File in Folder is created in Google Drive Read More...
Google Drive + MySQLUpdate Row in MySQL when New File is created in Google Drive Read More...
It's easy to connect Google Drive + MySQL without coding knowledge. Start creating your own business flow.
Triggers whenever a new file is added to any of the folders.
Triggers whenever a new file is directly added to a specific folder.(but doesn't trigger when a file is added to the subfolders)
Triggered when you add a new row.
Triggered when new rows are returned from a custom query that you provide. Advanced Users Only
Triggered when you add a new table.
Create a new file from plain text.
Create a new folder.
An existing file is copied to Google Drive from a different service.
Adds a new row.
Delete a row.
Updates an existing row.
In this paper, I am going to tell you about the integration of Google Drive and MySQL.
Google Drive offers a cloud system which allows users to access their content from anywhere. The company also offers a database called "MySQL," which is an open source database.
The integration of Google Drive and MySQL is very beneficial in terms of sharing data between the two applications.
Create an outline for a lab report about separation of isotopes:
B. Types of IsotopeII. Procedure
B. Preparation of U-238III. Results
B. Results for U-238IV. Discussion
B. Comparison of the results from the experimentsV. ConclusionThe main objective of this experiment is to separate uranium from non-uranium by using chemical reactions. In this experiment, we can see two compounds of uranium. One compound is U-235 and the other one is U-238. There are some differences between them.II. ProcedureIn this experiment, we use chemical reaction to separate the compounds. First, we have to prepare a chemical spution to react with U-235. Second, we have to test it at different times of reaction. Third, we should record the data in detail and then compare the obtained results with those predicted. At last, we need to repeat the above method for another chemical reaction to see whether we can get different results or not.III. ResultsThe results show that there are two peaks in the graph, one at 60 minutes where there is hardly any U-235 left and the other one at 120 minutes where most of U-235 has been left behind. The graph shows that after 60 minutes, there is practically no U-235 left in the spution while at 120 minutes, there is still some U-235. This shows that U-235 separates from the spution before 120 minutes of reaction time. It also shows that only a small amount of U-235 remains in the spution after 120 minutes reaction time.IV. DiscussionFrom the graph shown, we can conclude that after 120 minutes of reaction time, only 5% of U-235 remains in the spution and rest 95% has been left behind as spid compounds. This shows that after 120 minutes, most of the spution has been converted into spid compounds and only a small amount of spution remains. We can also discuss about how much separation would be achieved in shorter time periods and whether would this affect the efficiency or not.V. Conclusion
The conclusion from this experiment is that different compounds react differently with the same chemical sputions and therefore we cannot predict the outcomes without performing tests. From this data we can also conclude that a very large amount of U-235 separates from the spution within 120 minutes and only a very small amount remains in the spution as spid compounds. Therefore, we can also conclude that chemical reactions are efficient method for separation of isotopes because it requires fewer resources and can be done in less time at a lower cost than other methods used for separation of isotopes.
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