37 javascript interview questions

Toptal sourced essential questions that the best JavaScript developers and engineers can answer. Driven from our community, we encourage experts to submit questions and offer feedback.

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  • What is a potential pitfall with using typeof bar === "object" to determine if bar is an object? How can this pitfall be avoided?

    Although typeof bar === "object" is a reliable way of checking if bar is an object, the surprising gotcha in JavaScript is that null is also considered an object!

    Therefore, the following code will, to the surprise of most developers, log true (not false) to the console:

    As long as one is aware of this, the problem can easily be avoided by also checking if bar is null:

    To be entirely thorough in our answer, there are two other things worth noting:

    First, the above solution will return false if bar is a function. In most cases, this is the desired behavior, but in situations where you want to also return true for functions, you could amend the above solution to be:

    Second, the above solution will return true if bar is an array (e.g., if var bar = [];). In most cases, this is the desired behavior, since arrays are indeed objects, but in situations where you want to also false for arrays, you could amend the above solution to be:

    However, there’s one other alternative that returns false for nulls, arrays, and functions, but true for objects:

    Or, if you’re using jQuery:

    ES5 makes the array case quite simple, including its own null check:

    What will the code below output to the console and why?

    Since both a and b are defined within the enclosing scope of the function, and since the line they are on begins with the var keyword, most JavaScript developers would expect typeof a and typeof b to both be undefined in the above example.

    However, that is not the case. The issue here is that most developers incorrectly understand the statement var a = b = 3; to be shorthand for:

    But in fact, var a = b = 3; is actually shorthand for:

    As a result (if you are not using strict mode), the output of the code snippet would be:

    But how can b be defined outside of the scope of the enclosing function? Well, since the statement var a = b = 3; is shorthand for the statements b = 3; and var a = b;, b ends up being a global variable (since it is not preceded by the var keyword) and is therefore still in scope even outside of the enclosing function.

    Note that, in strict mode (i.e., with use strict), the statement var a = b = 3; will generate a runtime error of ReferenceError: b is not defined, thereby avoiding any headfakes/bugs that might othewise result. (Yet another prime example of why you should use use strict as a matter of course in your code!)

    What will the code below output to the console and why?

    The above code will output the following to the console:

    In the outer function, both this and self refer to myObject and therefore both can properly reference and access foo.

    In the inner function, though, this no longer refers to myObject. As a result, this.foo is undefined in the inner function, whereas the reference to the local variable self remains in scope and is accessible there.

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    What is the significance of, and reason for, wrapping the entire content of a JavaScript source file in a function block?

    This is an increasingly common practice, employed by many popular JavaScript libraries (jQuery, Node.js, etc.). This technique creates a closure around the entire contents of the file which, perhaps most importantly, creates a private namespace and thereby helps avoid potential name clashes between different JavaScript modules and libraries.

    Another feature of this technique is to allow for an easily referenceable (presumably shorter) alias for a global variable. This is often used, for example, in jQuery plugins. jQuery allows you to disable the $ reference to the jQuery namespace, using jQuery.noConflict(). If this has been done, your code can still use $ employing this closure technique, as follows:

    What is the significance, and what are the benefits, of including use strict at the beginning of a JavaScript source file?

    The short and most important answer here is that use strict is a way to voluntarily enforce stricter parsing and error handling on your JavaScript code at runtime. Code errors that would otherwise have been ignored or would have failed silently will now generate errors or throw exceptions. In general, it is a good practice.

    Some of the key benefits of strict mode include:

  • Makes debugging easier. Code errors that would otherwise have been ignored or would have failed silently will now generate errors or throw exceptions, alerting you sooner to problems in your code and directing you more quickly to their source.
  • Prevents accidental globals. Without strict mode, assigning a value to an undeclared variable automatically creates a global variable with that name. This is one of the most common errors in JavaScript. In strict mode, attempting to do so throws an error.
  • Eliminates this coercion. Without strict mode, a reference to a this value of null or undefined is automatically coerced to the global. This can cause many headfakes and pull-out-your-hair kind of bugs. In strict mode, referencing a a this value of null or undefined throws an error.
  • Disallows duplicate parameter values. Strict mode throws an error when it detects a duplicate named argument for a function (e.g., function foo(val1, val2, val1){}), thereby catching what is almost certainly a bug in your code that you might otherwise have wasted lots of time tracking down.
    • Note: It used to be (in ECMAScript 5) that strict mode would disallow duplicate property names (e.g. var object = {foo: "bar", foo: "baz"};) but as of ECMAScript 2015 this is no longer the case.
  • Makes eval() safer. There are some differences in the way eval() behaves in strict mode and in non-strict mode. Most significantly, in strict mode, variables and functions declared inside of an eval() statement are not created in the containing scope (they are created in the containing scope in non-strict mode, which can also be a common source of problems).
  • Throws error on invalid usage of delete. The delete operator (used to remove properties from objects) cannot be used on non-configurable properties of the object. Non-strict code will fail silently when an attempt is made to delete a non-configurable property, whereas strict mode will throw an error in such a case.
  • Consider the two functions below. Will they both return the same thing? Why or why not?

    Surprisingly, these two functions will not return the same thing. Rather:

    will yield:

    Not only is this surprising, but what makes this particularly gnarly is that foo2() returns undefined without any error being thrown.

    The reason for this has to do with the fact that semicolons are technically optional in JavaScript (although omitting them is generally really bad form). As a result, when the line containing the return statement (with nothing else on the line) is encountered in foo2(), a semicolon is automatically inserted immediately after the return statement.

    No error is thrown since the remainder of the code is perfectly valid, even though it doesn’t ever get invoked or do anything (it is simply an unused code block that defines a property bar which is equal to the string "hello").

    This behavior also argues for following the convention of placing an opening curly brace at the end of a line in JavaScript, rather than on the beginning of a new line. As shown here, this becomes more than just a stylistic preference in JavaScript.

    What will the code below output? Explain your answer.

    An educated answer to this question would simply be: “You can’t be sure. it might print out 0.3 and true, or it might not. Numbers in JavaScript are all treated with floating point precision, and as such, may not always yield the expected results.”

    The example provided above is classic case that demonstrates this issue. Surprisingly, it will print out:

    A typical solution is to compare the absolute difference between two numbers with the special constant Number.EPSILON:

    In what order will the numbers 1-4 be logged to the console when the code below is executed? Why?

    The values will be logged in the following order:

    Let’s first explain the parts of this that are presumably more obvious:

  • 1 and 4 are displayed first since they are logged by simple calls to console.log() without any delay
  • 2 is displayed after 3 because 2 is being logged after a delay of 1000 msecs (i.e., 1 second) whereas 3 is being logged after a delay of 0 msecs.
  • OK, fine. But if 3 is being logged after a delay of 0 msecs, doesn’t that mean that it is being logged right away? And, if so, shouldn’t it be logged before 4, since 4 is being logged by a later line of code?

    The answer has to do with properly understanding JavaScript events and timing.

    The browser has an event loop which checks the event queue and processes pending events. For example, if an event happens in the background (e.g., a script onload event) while the browser is busy (e.g., processing an onclick), the event gets appended to the queue. When the onclick handler is complete, the queue is checked and the event is then handled (e.g., the onload script is executed).

    Similarly, setTimeout() also puts execution of its referenced function into the event queue if the browser is busy.

    When a value of zero is passed as the second argument to setTimeout(), it attempts to execute the specified function “as soon as possible”. Specifically, execution of the function is placed on the event queue to occur on the next timer tick. Note, though, that this is not immediate; the function is not executed until the next tick. That’s why in the above example, the call to console.log(4) occurs before the call to console.log(3) (since the call to console.log(3) is invoked via setTimeout, so it is slightly delayed).

    Write a simple function (less than 160 characters) that returns a boolean indicating whether or not a string is a palindrome.

    The following one line function will return true if str is a palindrome; otherwise, it returns false.

    For example:

    Write a sum method which will work properly when invoked using either syntax below.

    There are (at least) two ways to do this:

    METHOD 1

    In JavaScript, functions provide access to an arguments object which provides access to the actual arguments passed to a function. This enables us to use the length property to determine at runtime the number of arguments passed to the function.

    If two arguments are passed, we simply add them together and return.

    Otherwise, we assume it was called in the form sum(2)(3), so we return an anonymous function that adds together the argument passed to sum() (in this case 2) and the argument passed to the anonymous function (in this case 3).

    METHOD 2

    When a function is invoked, JavaScript does not require the number of arguments to match the number of arguments in the function definition. If the number of arguments passed exceeds the number of arguments in the function definition, the excess arguments will simply be ignored. On the other hand, if the number of arguments passed is less than the number of arguments in the function definition, the missing arguments will have a value of undefined when referenced within the function. So, in the above example, by simply checking if the 2nd argument is undefined, we can determine which way the function was invoked and proceed accordingly.

    Consider the following code snippet:

    (a) What gets logged to the console when the user clicks on “Button 4” and why?

    (b) Provide one or more alternate implementations that will work as expected.

    (a) No matter what button the user clicks the number 5 will always be logged to the console. This is because, at the point that the onclick method is invoked (for any of the buttons), the for loop has already completed and the variable i already has a value of 5. (Bonus points for the interviewee if they know enough to talk about how execution contexts, variable objects, activation objects, and the internal “scope” property contribute to the closure behavior.)

    (b) The key to making this work is to capture the value of i at each pass through the for loop by passing it into a newly created function object. Here are four possible ways to accomplish this:

    Alternatively, you could wrap the entire call to btn.addEventListener in the new anonymous function:

    Or, we could replace the for loop with a call to the array object’s native forEach method:

    Lastly, the simplest solution, if you’re in an ES6/ES2015 context, is to use let i instead of var i:

    Assuming d is an “empty” object in scope, say:

    …what is accomplished using the following code?

    The snippet of code shown above sets two properties on the object d. Ideally, any lookup performed on a JavaScript object with an unset key evaluates to undefined. But running this code marks those properties as “own properties” of the object.

    This is a useful strategy for ensuring that an object has a given set of properties. Passing this object to Object.keys will return an array with those set keys as well (even if their values are undefined).

    What will the code below output to the console and why?

    The logged output will be:

    arr1 and arr2 are the same (i.e. [n,h,o,j, [j,o,n,e,s] ]) after the above code is executed for the following reasons:

  • Calling an array object’s reverse() method doesn’t only return the array in reverse order, it also reverses the order of the array itself (i.e., in this case, arr1).
  • The reverse() method returns a reference to the array itself (i.e., in this case, arr1). As a result, arr2 is simply a reference to (rather than a copy of) arr1. Therefore, when anything is done to arr2 (i.e., when we invoke arr2.push(arr3);), arr1 will be affected as well since arr1 and arr2 are simply references to the same object.
  • And a couple of side points here that can sometimes trip someone up in answering this question:

  • Passing an array to the push() method of another array pushes that entire array as a single element onto the end of the array. As a result, the statement arr2.push(arr3); adds arr3 in its entirety as a single element to the end of arr2 (i.e., it does not concatenate the two arrays, that’s what the concat() method is for).
  • Like Python, JavaScript honors negative subscripts in calls to array methods like slice() as a way of referencing elements at the end of the array; e.g., a subscript of -1 indicates the last element in the array, and so on.
  • What will the code below output to the console and why ?

    The above code will output the following to the console:

    The fundamental issue here is that JavaScript (ECMAScript) is a loosely typed language and it performs automatic type conversion on values to accommodate the operation being performed. Let’s see how this plays out with each of the above examples.

    Example 1: 1 + "2" + "2" Outputs: "122" Explanation: The first operation to be performed in 1 + "2". Since one of the operands ("2") is a string, JavaScript assumes it needs to perform string concatenation and therefore converts the type of 1 to "1", 1 + "2" yields "12". Then, "12" + "2" yields "122".

    Example 2: 1 + +"2" + "2" Outputs: "32" Explanation: Based on order of operations, the first operation to be performed is +"2" (the extra + before the first "2" is treated as a unary operator). Thus, JavaScript converts the type of "2" to numeric and then applies the unary + sign to it (i.e., treats it as a positive number). As a result, the next operation is now 1 + 2 which of course yields 3. But then, we have an operation between a number and a string (i.e., 3 and "2"), so once again JavaScript converts the type of the numeric value to a string and performs string concatenation, yielding "32".

    Example 3: 1 + -"1" + "2" Outputs: "02" Explanation: The explanation here is identical to the prior example, except the unary operator is - rather than +. So "1" becomes 1, which then becomes -1 when the - is applied, which is then added to 1 yielding 0, which is then converted to a string and concatenated with the final "2" operand, yielding "02".

    Example 4: +"1" + "1" + "2" Outputs: "112" Explanation: Although the first "1" operand is typecast to a numeric value based on the unary + operator that precedes it, it is then immediately converted back to a string when it is concatenated with the second "1" operand, which is then concatenated with the final "2" operand, yielding the string "112".

    Example 5: "A" - "B" + "2" Outputs: "NaN2" Explanation: Since the - operator can not be applied to strings, and since neither "A" nor "B" can be converted to numeric values, "A" - "B" yields NaN which is then concatenated with the string "2" to yield “NaN2”.

    Example 6: "A" - "B" + 2 Outputs: NaN Explanation: As exlained in the previous example, "A" - "B" yields NaN. But any operator applied to NaN with any other numeric operand will still yield NaN.

    The following recursive code will cause a stack overflow if the array list is too large. How can you fix this and still retain the recursive pattern?

    The potential stack overflow can be avoided by modifying the nextListItem function as follows:

    The stack overflow is eliminated because the event loop handles the recursion, not the call stack. When nextListItem runs, if item is not null, the timeout function (nextListItem) is pushed to the event queue and the function exits, thereby leaving the call stack clear. When the event queue runs its timed-out event, the next item is processed and a timer is set to again invoke nextListItem. Accordingly, the method is processed from start to finish without a direct recursive call, so the call stack remains clear, regardless of the number of iterations.

    What is a “closure” in JavaScript? Provide an example.

    A closure is an inner function that has access to the variables in the outer (enclosing) function’s scope chain. The closure has access to variables in three scopes; specifically: (1) variable in its own scope, (2) variables in the enclosing function’s scope, and (3) global variables.

    Here is an example:

    In the above example, variables from innerFunc, outerFunc, and the global namespace are all in scope in the innerFunc. The above code will therefore produce the following output:

    What would the following lines of code output to the console?

    The code will output the following four lines:

    In JavaScript, both || and && are logical operators that return the first fully-determined “logical value” when evaluated from left to right.

    The or (||) operator. In an expression of the form X||Y, X is first evaluated and interpreted as a boolean value. If this boolean value is true, then true (1) is returned and Y is not evaluated, since the “or” condition has already been satisfied. If this boolean value is “false”, though, we still don’t know if X||Y is true or false until we evaluate Y, and interpret it as a boolean value as well.

    Accordingly, 0 || 1 evaluates to true (1), as does 1 || 2.

    The and (&&) operator. In an expression of the form X&&Y, X is first evaluated and interpreted as a boolean value. If this boolean value is false, then false (0) is returned and Y is not evaluated, since the “and” condition has already failed. If this boolean value is “true”, though, we still don’t know if X&&Y is true or false until we evaluate Y, and interpret it as a boolean value as well.

    However, the interesting thing with the && operator is that when an expression is evaluated as “true”, then the expression itself is returned. This is fine, since it counts as “true” in logical expressions, but also can be used to return that value when you care to do so. This explains why, somewhat surprisingly, 1 && 2 returns 2 (whereas you might it expect it to return true or 1).

    What will be the output when the following code is executed? Explain.

    The code will output:

    In JavaScript, there are two sets of equality operators. The triple-equal operator === behaves like any traditional equality operator would: evaluates to true if the two expressions on either of its sides have the same type and the same value. The double-equal operator, however, tries to coerce the values before comparing them. It is therefore generally good practice to use the === rather than ==. The same holds true for !== vs !=.

    What is the output out of the following code? Explain your answer.

    The output of this code will be 456 (not 123).

    The reason for this is as follows: When setting an object property, JavaScript will implicitly stringify the parameter value. In this case, since b and c are both objects, they will both be converted to "[object Object]". As a result, a[b] anda[c] are both equivalent to a["[object Object]"] and can be used interchangeably. Therefore, setting or referencing a[c] is precisely the same as setting or referencing a[b].

    What will the following code output to the console:

    The code will output the value of 10 factorial (i.e., 10!, or 3,628,800).

    Here’s why:

    The named function f() calls itself recursively, until it gets down to calling f(1) which simply returns 1. Here, therefore, is what this does:

    Consider the code snippet below. What will the console output be and why?

    The output will be 1, even though the value of x is never set in the inner function. Here’s why:

    As explained in our JavaScript Hiring Guide, a closure is a function, along with all variables or functions that were in-scope at the time that the closure was created. In JavaScript, a closure is implemented as an “inner function”; i.e., a function defined within the body of another function. An important feature of closures is that an inner function still has access to the outer function’s variables.

    Therefore, in this example, since x is not defined in the inner function, the scope of the outer function is searched for a defined variable x, which is found to have a value of 1.

    What will the following code output to the console and why:

    What is the issue with this code and how can it be fixed.

    The code will output:

    The first console.log prints undefined because we are extracting the method from the hero object, so stoleSecretIdentity() is being invoked in the global context (i.e., the window object) where the _name property does not exist.

    One way to fix the stoleSecretIdentity() function is as follows:

    Create a function that, given a DOM Element on the page, will visit the element itself and all of its descendents (not just its immediate children). For each element visited, the function should pass that element to a provided callback function.

    The arguments to the function should be:

  • a DOM element
  • a callback function (that takes a DOM element as its argument)
  • Visiting all elements in a tree (DOM) is a classic Depth-First-Search algorithm application. Here’s an example solution:

    Testing your this knowledge in JavaScript: What is the output of the following code?


    Why isn’t it 10 and 5?

    In the first place, as fn is passed as a parameter to the function method, the scope (this) of the function fn is window. var length = 10; is declared at the window level. It also can be accessed as window.length or length or this.length (when this === window.)

    method is bound to Object obj, and obj.method is called with parameters fn and 1. Though method is accepting only one parameter, while invoking it has passed two parameters; the first is a function callback and other is just a number.

    When fn() is called inside method, which was passed the function as a parameter at the global level, this.length will have access to var length = 10 (declared globally) not length = 5 as defined in Object obj.

    Now, we know that we can access any number of arguments in a JavaScript function using the arguments[] array.

    Hence arguments[0]() is nothing but calling fn(). Inside fn now, the scope of this function becomes the arguments array, and logging the length of arguments[] will return 2.

    Hence the output will be as above.

    Consider the following code. What will the output be, and why?

    var statements are hoisted (without their value initialization) to the top of the global or function scope it belongs to, even when it’s inside a with or catch block. However, the error’s identifier is only visible inside the catch block. It is equivalent to:

    What will be the output of this code?

    Neither 21, nor 20, the result is undefined

    It’s because JavaScript initialization is not hoisted.

    (Why doesn’t it show the global value of 21? The reason is that when the function is executed, it checks that there’s a local x variable present but doesn’t yet declare it, so it won’t look for global one.)

    What will this code print?

    It will print 0 1 2 3 4, because we use let instead of var here. The variable i is only seen in the for loop’s block scope.

    What do the following lines output, and why?

    The first statement returns true which is as expected.

    The second returns false because of how the engine works regarding operator associativity for < and >. It compares left to right, so 3 > 2 > 1 JavaScript translates to true > 1. true has value 1, so it then compares 1 > 1, which is false.

    How do you add an element at the begining of an array? How do you add one at the end?

    With ES6, one can use the spread operator:

    Or, in short:

    Imagine you have this code:

    a) Will this result in a crash?

    b) What will this output?

    a) It will not crash. The JavaScript engine will make array slots 3 through 9 be “empty slots.”

    b) Here, a[6] will output undefined, but the slot still remains empty rather than filled with undefined. This may be an important nuance in some cases. For example, when using map(), empty slots will remain empty in map()’s output, but undefined slots will be remapped using the function passed to it:

    What is the value of typeof undefined == typeof NULL?

    The expression will be evaluated to true, since NULL will be treated as any other undefined variable.

    Note: JavaScript is case-sensitive and here we are using NULL instead of null.

    What would following code return?

    typeof 1 will return "number" and typeof "number" will return string.

    What will be the output of the following code:

    Explain your answer. How could the use of closures help here?

    The code sample shown will not display the values 0, 1, 2, 3, and 4 as might be expected; rather, it will display 5, 5, 5, 5, and 5.

    The reason for this is that each function executed within the loop will be executed after the entire loop has completed and all will therefore reference the last value stored in i, which was 5.

    Closures can be used to prevent this problem by creating a unique scope for each iteration, storing each unique value of the variable within its scope, as follows:

    This will produce the presumably desired result of logging 0, 1, 2, 3, and 4 to the console.

    In an ES2015 context, you can simply use let instead of var in the original code:

    What is NaN? What is its type? How can you reliably test if a value is equal to NaN?

    The NaN property represents a value that is “not a number”. This special value results from an operation that could not be performed either because one of the operands was non-numeric (e.g., "abc" / 4), or because the result of the operation is non-numeric.

    While this seems straightforward enough, there are a couple of somewhat surprising characteristics of NaN that can result in hair-pulling bugs if one is not aware of them.

    For one thing, although NaN means “not a number”, its type is, believe it or not, Number:

    Additionally, NaN compared to anything – even itself! – is false:

    A semi-reliable way to test whether a number is equal to NaN is with the built-in function isNaN(), but even using isNaN() is an imperfect solution.

    A better solution would either be to use value !== value, which would only produce true if the value is equal to NaN. Also, ES6 offers a new Number.isNaN() function, which is a different and more reliable than the old global isNaN() function.

    What will the following code output and why?

    Output to the console will be “3”.

    There are three closures in the example, each with it’s own var b declaration. When a variable is invoked closures will be checked in order from local to global until an instance is found. Since the inner closure has a b variable of its own, that is what will be output.

    Furthermore, due to hoisting the code in inner will be interpreted as follows:

    Discuss possible ways to write a function isInteger(x) that determines if x is an integer.

    This may sound trivial and, in fact, it is trivial with ECMAscript 6 which introduces a new Number.isInteger() function for precisely this purpose. However, prior to ECMAScript 6, this is a bit more complicated, since no equivalent of the Number.isInteger() method is provided.

    The issue is that, in the ECMAScript specification, integers only exist conceptually; i.e., numeric values are always stored as floating point values.

    With that in mind, the simplest and cleanest pre-ECMAScript-6 solution (which is also sufficiently robust to return false even if a non-numeric value such as a string or null is passed to the function) would be the following use of the bitwise XOR operator:

    The following solution would also work, although not as elegant as the one above:

    The following function (or with Math.ceil() or Math.floor() in place of Math.round()) might also seem useful, but the results are not exactly the same as with the above two functions:

    The difference is, these Math-based solutions return true for Infinity and -Infinity, whereas the others (and notably ES6’s Number.isInteger()) return false.

    Another fairly common incorrect solution is the following:

    While this parseInt-based approach will work well for many values of x, once x becomes quite large, it will fail to work properly. The problem is that parseInt() coerces its first parameter to a string before parsing digits. Therefore, once the number becomes sufficiently large, its string representation will be presented in exponential form (e.g., 1e+21). Accordingly, parseInt() will then try to parse 1e+21, but will stop parsing when it reaches the e character and will therefore return a value of 1. Observe:

    How do you clone an object?

    Now the value of objclone is {a: 1 ,b: 2} but points to a different object than obj.

    Note the potential pitfall, though: Object.assign() will just do a shallow copy, not a deep copy. This means that nested objects aren’t copied. They still refer to the same nested objects as the original:

    There is more to interviewing than tricky technical questions, so these are intended merely as a guide. Not every “A” candidate worth hiring will be able to answer them all, nor does answering them all guarantee an “A” candidate. At the end of the day, hiring remains an art, a science — and a lot of work.

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    Submitted questions and answers are subject to review and editing, and may or may not be selected for posting, at the sole discretion of Toptal, LLC.

    Coding HTML, CSS, and JS since his armed forces days in 1997, Jays experience in adapting web technology to meet customer needs is extensive. He enjoys bringing value to clients via eCommerce solutions, legacy integrations, and optimized PHP and JavaScript-driven applications.

    Along with strong communication skills and an exemplary work ethic, Tyler brings his hands-on experience with a wide range of programming languages. Recently, though, his focus has been directed towards JavaScript libraries. Throughout his career, he’s worked on multiple agile teams as a core developer and is now interested in working on anything JavaScript-related.

    Justin is a technical professional with a passion for learning and 15+ years of experience leading teams to build enterprise-grade distributed applications that solve real-world problems. He is a firm believer that collaboration across all facets of a business, from development to marketing to sales, is required to succeed in this endeavor.

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    JavaScript Interview Questions and Answers in 2022 | Edureka

    This Edureka video on “JavaScript Interview Questions” will help you to prepare yourself for JavaScript Interviews.

    Question 2:

    Answer — undefined and ReferenceError Explanation — Within the function, we first declare the name variable with the var keyword. This means that the variable gets hoisted (memory space is set up during the creation phase) with the default value of undefined, until we actually get to the line where we define the variable. We havent defined the variable yet on the line where we try to log the name variable, so it still holds the value of undefined.

    Variables with the let keyword (and const) are hoisted, but unlike var, dont get initialized. They are not accessible before the line we declare (initialize) them. This is called the "temporal dead zone". When we try to access the variables before they are declared, JavaScript throws a ReferenceError.

    Before you go! Take this "JavaScript Interview Questions" interview guide with you

    JavaScript, created by Brendan Eich in 1995, is one of the most widely used web development languages. It was designed to build dynamic web pages at first. A script is a JS program that may be added to the HTML of any web page. When the page loads, these scripts execute automatically.

    A language that was originally designed to build dynamic web pages may now be run on the server and on almost any device that has the JavaScript Engine installed.

    After HTML and CSS, JavaScript is the third biggest web technology. JavaScript is a scripting language that may be used to construct online and mobile apps, web servers, games, and more. JavaScript is an object-oriented programming language that is used to generate websites and applications. It was created with the intention of being used in a browser. Even today, the server-side version of JavaScript known as Node.js may be used to create online and mobile apps, real-time applications, online streaming applications, and videogames. Javascript frameworks, often known as inbuilt libraries, may be used to construct desktop and mobile programs. Developers may save a lot of time on monotonous programming jobs by using these code libraries, allowing them to focus on the production work of development.

    The InterviewBit team has compiled a thorough collection of top Javascript Interview Questions and Answers to assist you in acing your interview and landing your desired job as a Javascript Developer. Crack your next tech interview with confidence! Take a free mock interview, get instant⚡️ feedback and recommendation


    How do I prepare for JavaScript interview?

    How to prepare for JavaScript interviews
    1. Step 1: Know what you need to study. You already know what programming language you will be using, so now you need to research what aspects of that language will be tested. ...
    2. Step 2: Make a plan. ...
    3. Step 3: Don't forget the behavioral interview.

    What are basic questions of JavaScript?

    Frequently Asked JavaScript Interview Questions and Answers for Freshers and Experienced
    • What is JavaScript? ...
    • Enumerate the differences between Java and JavaScript? ...
    • What are JavaScript Data Types? ...
    • What is the use of isNaN function? ...
    • Which is faster between JavaScript and an ASP script? ...
    • What is negative Infinity?

    Is JavaScript good for interview?

    JavaScript is a lightweight, interpreted programming language with object-oriented capabilities that allows you to build interactivity into otherwise static HTML pages. The general-purpose core of the language has been embedded in Netscape, Internet Explorer, and other web browsers.

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