(Python OR Ruby OR Node OR Go) AND (React OR Angular OR Vue)Ĭheck out these Boolean Search String examples for all the most common software development and engineering roles, from Java Developer to Data Warehouse Engineer. (returns developer, developed, development…)įor creating more complex searches and nesting search terms Boolean Operatorįor locating resources that contain two or more keywordsįor locating resources that contain at least one of a list of two or more keywordsĮxcludes resources that contain a keywordįor locating resources that contain an exact phraseįor located resources on a particular websiteīlockchain software engineer site:įor locating resources that contain (a) keyword(s) in the urlįor searching with unknown characters or words Here are the Boolean operators recruiters will find most helpful when searching for technical talent, with explanations and examples. Sourcers and recruiters can save time and find candidates with the right skills more quickly by creating boolean search strings with relevant keywords and operators in Google or any search engine. This eliminates ambiguity for the search engine and ensures that in its results maiden must exist, either unicorn and pegasus may exist, but that the term "tapestry" should not exist.Source: What is Boolean search in recruitment? By grouping the terms this way, you are telling the search engine which terms must be present and which terms are optional. ![]() In the above example, (unicorn OR Pegasus) is a sub-query. When your search query includes multiple Boolean operators, parenthesis are important to help the search engine group them in a way that is relevant for your research. ![]() This set of results is smaller than the previous one, and no longer includes any content that includes the word, "tapestry." Using NOT in queries let the search engine know that we are not interested in the subsequent terms of the search. If you are seeing too many results that are not relevant to their research, finding a common pattern or theme in those results in which you might exclude a term, might be helpful.įor example, if you were only looking for scholarship on magical creatures that mentions unicorns or Pegasus, but do not want to see any results that include tapestries, the following query would work: Using the NOT Boolean operator will narrow your search results by telling the search engine to exclude results that have a particular search term present. The OR operator also works well if you want to include multiple synonyms in the same search. Using the OR Boolean operator will expand your search results by telling the search engine to return results that have EITHER/ANY of the search terms present.įor exampe, if you wanted to expand your results to include texts that mention unicorns and include results that mention Pegasus as well, the OR operator would expand that search:Īfter using the OR operator, you will return an expanded list of results to review. This will decrease the number of results to review and help you more easily find a relevant article.Īll 1,386 total results will include both the term “unicorn” and the term “maiden.” If, for example, you are interested in researching the claim that unicorns appear to maidens, you might refine this set of results further by adding the operator AND along with "maiden” to your "unicorn" search. Learn more about the AND, OR, and NOT operators, and how they work on JSTOR, below:ĪND is the default Boolean operator, and using it will narrow your search results by telling the search engine to return results that have BOTH/ALL search terms present.įor example, when you search JSTOR for scholarly content using only the search term "unicorn," the search yields a very large set of results. To use them, Boolean operators must be typed in all capital letters.
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