Master Python Control Structures with this interactive quiz! This Python Control Structures Quiz is designed for students, programmers, data analysts, and IT professionals. This Python Quiz tests your understanding of if-else, loops (for/while), and flow control in Python. Whether you are a beginner or an expert, sharpen your logic and debugging skills with real-world examples through this Python Control Structures Quiz. Can you score 100%? Let us start with the Online Python Control Structures Quiz now.
Online Python Control Structures Quiz with Answers
Online Python Control Structures Quiz with Answers
Which of the following best describes the purpose of the ‘elif’ statement in a conditional structure?
What will be the result of the following? for x in range(0, 3): print(x)
What is the output of the following for x in [‘A’, ‘B’, ‘C’]: print(x+’A’)
What is the output of the following? for i, x in enumerate([‘A’, ‘B’, ‘C’]): print(i, x)
What result does the following code produce? def print_function(A): for a in A: print(a + ‘1’)
What is the output of the following code? x = “Go” if x == “Go”: print(‘Go’) else: print(‘Stop’) print(‘Mike’)
What is the result of the following lines of code? x = 0 while x < 2: print(x) x = x + 1
What is the output of the following few lines of code? for i, x in enumerate([‘A’, ‘B’, ‘C’]): print(i + 1, x)
Considering the function step, when will the following function return a value of 1? def step(x): if x > 0: y = 1 else: y = 0 return y
What is the output of the following lines of code? a = 1 def do(x): return x + a print(do(1))
For the code shared below, what value of $x$ will produce the output “How are you?”? if(x!=1): print(‘How are you?’) else: print(‘Hi’)
What is the output of the following? for i in range(1,5): if (i!=2): print(i)
In Python, what is the result of the following code? x = 0 while x < 3: x += 1 print(x)
What will be the output of the following Python code? x = 5 y = 10 if x > y: print(‘x is greater than y’) else: print(‘x is less than or equal to y’)
Identify which of the following while loops will correctly execute 5 times.
Which of the following statements correctly demonstrates the use of an if-else conditional statement in Python?
Which of the following correctly demonstrates the use of an if-else statement to check if a variable ‘x’ is greater than 10 and print ‘High’ if true, or ‘Low’ if false?
Which loop is used when the number of iterations is unknown?
Learn essential Data Manipulation Functions in R like with(), by(), subset(), sample() and concatenation functions in this comprehensive Q&A guide. Perfect for students, researchers, and R programmers seeking practical R coding techniques. Struggling with data manipulation in R? This blog post about Data manipulation in R breaks down critical R functions in an easy question-answer format, covering: ✔ with() vs by() – When to use each for efficient data handling. ✔ Concatenation functions (c(), paste(), cbind(), etc.) – Combine data like a pro. ✔ subset() vs sample() – Filter data and generate random samples effortlessly. The Data manipulation functions in R include practical examples to boost R programming skills for data analysis, research, and machine learning.
Table of Contents
Data Manipulation Functions in R
Explain with() and by() functions in R are used for?
In R programming, with() and by() functions are two useful functions for data manipulation and analysis.
with() Function: allows to evaluate expressions within a specific data environment (such as data.frame, or list) without repeatedly referencing the dataset. The syntax with an example is with(data, expr) df = data.frame(x = 1:5, y=6:10) with(df, x + y)
by() Function: applies a function to subsets of a dataset split by one or more factors (similar to GROUP BY in SQL). The syntax with an example is by(data, INDICES, FUN, …)
df <- data.frame(group = c("A", "B", "B"), value = c(10, 20, 30, 40)) by(df$value, df$group, mean) # computes the mean for each group
Use with() to simplify code when working with columns in a data frame.
Use by() (or dplyr/tidyverse alternatives) for group-wise computations.
Both with() and by() functions are base R functions, but modern alternatives like dplyr (mutate(), summarize(), group_by()) are often preferred for readability. The key difference between with() and by() functions are:
Function
Purpose
Input
Output
with()
Evaluate expressions in a data environment
Data frame + expression
Result of expression
by()
Apply a function to groups of data
Data + grouping factor + function
Results
What are the concatenation functions in R?
In the R programming language, concatenation refers to combining values into vectors, lists, or other structures. The following are primary concatenation functions:
c() Basic Concatenation: is used to combine elements into a vector (atomic or list). It works with numbers, characters, logical values, and lists. The examples are x <- c(1, 2, 3) y <- c("a", "b", "c") z <- c(TRUE, FALSE, TRUE, TRUE)
paste() and paste0() String Concatenation: is used to combine strings (character vectors with optional separators. The key difference between paste() and paste0 is the use of a separator. The paste() has a default space separator. The examples are: paste("Hello", "world") paste0("hello", "world") paste(c("A", "B"), 1:2, sep = "-")
cat() Print Concatenation: is used to concatenate outputs to the console/file (it is not used for storing results). It is useful for printing messages or writing to files. The example is: cat("R Frequently Asked Questions", "https://rfaqs.com", "\n")
append() Insert into Vectors/ Lists: is used to add elements to an existing vector/ list at a specified position. x <- c(1, 2, 3) append(x, 4, after = 2) # inserts 4 after position 2
cbind() and rbind() Matrix/ Data Frame Concatenation: is used to combine objects column-wise and row-wise, respectively. It works with vectors, matrices, or data frames. The examples are: df1 <- data.frame(A = 1:2, B = c("X", "Y")) df2 <- data.frame(A = 3:4, B = c("Z", "W")) rbind(df1, df2) # stacks rows cbind(df1, C= c(10, 20)) # adds a new column
list() Concatenate into a list: is used to combine elements into a list (preserves structure, unlike c(). The example is: my_list = list(1, "a", TRUE, 10:15) # keeps elements as separate list time
The key differences between these concatenation functions are:
Function
Output Type
Use Case
c()
Atomic vector/list
Simple element concatenation
paste()
Character vector
String merging with separators
cat()
Console output
Printing/writing text
append()
Modified vector/list
Inserting elements at a position
cbind()
Matrix/data frame
Column-wise combination
rbind()
Matrix/data frame
bRow-wise combination
list()
List
Preserves heterogeneous elements
What is the use of subset() function and sample() function in R?
Both subset() and sample() are essential functions in R for data manipulation and random sampling, respectively. One can use subset() when one needs to filter rows or select columns based on logical conditions. One can prefer cleaner syntax over $df[df$age > 25, ]$. Use sample() when one needs random samples (such as for machine learning splits) or one wants to shuffle data or perform bootstrapping.
subset() function: is used to filter rows and select columns from a data frame based on conditions. It provides a cleaner syntax compared to base R subsetting with []. The syntax and example are: subset(data, subset, select)
df <- data.frame( name = c("Ali", "Usman", "Imdad"), age = c(25, 30, 22), score = c(85, 90, 60)) subset(df, age > 25) subset(df, age > 25, select = c(name, score)) Note that the subset() function works only with data frames.
sample() Function: is used for random sampling from a vector or data frame. It helps create train-test splits, bootstrapping, and randomizing data order. The syntax and example are: sample(x, size, replace = FALSE, prob = NULL)
sample(1:10, 3) # sample 3 number from 1 to 10 without replacement sample(1:6, 10, replace = TRUE) # 6 possible outcomes, sampled 10 times with replacement sample(letters[1:5]) # shuffle letters A to E
The key difference between subset() and sample() are:
These Python NumPy MCQs are designed to test your understanding of fundamental NumPy concepts, including array creation, manipulation, and common operations. The Python NumPy MCQs Quiz consists of multiple-choice questions (MCQs) covering essential topics such as:
Each question is followed by the correct answer, making it useful for self-assessment, interviews, or exam preparation. Whether you are a beginner or an intermediate Python programmer, this Python Quiz helps reinforce key NumPy skills efficiently. Let us start with the Python NumPy MCQs now.
