40 Questions & Answers on Clustering Techniques for Data Science Professionals (Updated 2025)

saurav kaushik Last Updated : 04 Dec, 2024
18 min read

Humans have been driven by the idea of creating machines that learn by themselves (i.e., artificial intelligence) for decades now. Unsupervised learning and clustering are the keys to fulfilling that dream. Unsupervised learning provides more flexibility but is also more challenging. This skill test will focus on clustering techniques. Clustering plays an important role in drawing insights from unlabeled data. Clustering machine learning algorithms classify large datasets in similar groups, which improves various business decisions by providing a meta-understanding. Recently, deep learning models with neural networks are also used in clustering. In this article, you will understand the clustering interview questions that will help you to clear interviews.

Overview:

  • Explore foundational clustering techniques such as K-Means, DBSCAN, Hierarchical Clustering, and more, with detailed explanations and practical examples.
  • Uncover real-world clustering applications across finance, healthcare, and marketing industries, and understand how data professionals utilize these techniques for insights.
  • Gain insights into the challenges of clustering, including dealing with high-dimensional data, selecting the right number of clusters, and handling outliers.
  • Through expert answers and guidance, you can learn how to address clustering-related issues, such as feature scaling, distance metrics, and evaluation methods.

About the Skill Test

In this skill test, we tested our community on clustering techniques. A total of 1566 people registered for this skill test. If you missed taking the test, we have provided questions and answers. Here is your opportunity to find out how many questions you could have answered correctly. These can also be useful as a part of data science interview questions.

Below is the distribution of scores to help you evaluate your performance:

Clustering Techniques Skill Test Performance Distribution

You can view the leaderboard here. More than 390 people participated in the skill test; the highest score was 33. Here are a few statistics about the distribution.

Overall distribution

Mean Score: 15.11 | Median Score: 15 | Mode Score: 16

Helpful Resources

Many people wish to be data scientists and data analysts these days and wonder if they can achieve it without a background in computer science. Be rest assured that is possible! Plenty of resources, courses, and tutorials are available online that cover various data science topics, such as data analysis, data mining, big data, data analytics, data modelling, data visualization, and more. Here are some of our best recommended online resources on clustering techniques.

If you are just getting started with Unsupervised Learning, here are some comprehensive resources to assist you in your journey:

Clustering Techniques Skill Test Questions & Answers

Q1. Movie recommendation systems are an example of:

  1. Classification
  2. Clustering
  3. Reinforcement Learning
  4. Regression

Options:
A. 2 Only
B. 1 and 2
C. 1 and 3
D. 2 and 3
E. 1, 2, and 3
F. 1, 2, 3, and 4

Solution: (E)

Generally, movie recommendation systems cluster the users in a finite number of similar groups based on their previous activities and profiles. Then, people in the same cluster make similar recommendations at a fundamental level.

In some scenarios, this can also be approached as a classification problem for assigning the most appropriate movie class to the user of a specific group of users. Also, a movie recommendation system can be viewed as a reinforcement learning problem where it learns from its previous recommendations and improves future recommendations.

Q2. Sentiment Analysis is an example of:

  1. Regression
  2. Classification
  3. Clustering
  4. Reinforcement Learning

Options:
A. 1 Only
B. 1 and 2
C. 1 and 3
D. 1, 2 and 3
E. 1, 2 and 4
F. 1, 2, 3 and 4

Solution: (E)

In the above clustering question, at the fundamental level, Sentiment analysis classifies the sentiments represented in an image, text, or speech into a set of defined sentiment classes, such as happy, sad, excited, positive, negative, etc. It can also be viewed as a regression problem for assigning a sentiment score of 1 to 10 for a corresponding image, text, or speech.

Another way of looking at sentiment analysis is to consider it using a reinforcement learning perspective. The algorithm constantly learns from the accuracy of past sentiment analysis performed to improve future performance.

Q3. Can decision trees be used to perform clustering?

A. True
B. False

Solution:  (A)

Decision trees (and also random forests)can also be used for clusters in the data, but clustering often generates natural clusters and is not dependent on any objective function.

Q4. Which of the following is the most appropriate strategy for data cleaning before performing clustering analysis, given less than the desirable number of data points?

  1. Capping and flouring of variables
  2. Removal of outliers

Options:
A. 1 only
B. 2 only
C. 1 and 2
D. None of the above

Solution: (A)

If there are few data points, removing outliers is not recommended. The most appropriate strategy in this scenario is to cap and flour variables.

Q5. What is the minimum no. of variables/ features required to perform clustering?

Options:
A. 0
B. 1
C. 2
D. 3

Solution: (B)

To perform clustering analysis, at least a single variable is required. Clustering analysis with a single variable can be visualized using a histogram.

Q6. For two runs of K-Mean clustering, is it expected to get the same clustering results?

A. Yes
B. No

Solution: (B)

K-Means clustering algorithm instead converses on local minima, which might also correspond to the global minima in some cases but not always. Therefore, running the K-Means algorithm multiple times is advised before drawing inferences about the clusters.

However, receiving the same clustering results from K-means is possible by setting the same seed value for each run. This is done by simply making the algorithm choose the same random number set for each run.

Q7. Is it possible that the assignment of observations to clusters does not change between successive K-Means iteration?

Options:
A. Yes
B. No
C. Can’t say
D. None of these

Solution: (A)

In the above clustering question, when the K-Means machine learning model has reached the local or global minima, it will not alter the assignment of data points to clusters for two successive iterations.

Q8. Which of the following can act as possible termination conditions in K-Means?

  1. For a fixed number of iterations.
  2. The assignment of observations to clusters does not change between iterations, except for cases with a bad local minimum.
  3. Centroids do not change between successive iterations.
  4. Terminate when RSS falls below a threshold.

Options:
A. 1, 3 and 4
B. 1, 2 and 3
C. 1, 2 and 4
D. All of the above

Solution: (D)

All four conditions can be used as possible termination conditions in K-Means clustering:

  1. This condition limits the runtime of the clustering algorithm, but in some cases, the clustering quality will be poor because of an insufficient number of iterations.
  2. This produces good clustering except for cases with a bad local minimum, but runtimes may be unacceptably long.
  3. This also ensures that the algorithm has converged at the minimum.
  4. Terminate when RSS falls below a threshold. This criterion ensures that the clustering is of the desired quality after termination. Practically, combining it with a bound on the number of iterations to guarantee termination is a good practice.

Q9. Which of the following clustering algorithms suffers from the convergence problem at local optima?

  1. K- Means clustering algorithm
  2. Agglomerative clustering algorithm
  3. Expectation-Maximization clustering algorithm
  4. Diverse clustering algorithm

Options:
A. 1 only
B. 2 and 3
C. 2 and 4
D. 1 and 3
E. 1,2 and 4
F. All of the above

Solution: (D) 
Only the K-Means and EM clustering algorithms have the drawback of converging at local minima.

Q10. Which of the following algorithms is most sensitive to outliers?

Options:
A. K-means clustering algorithm
B. K-medians clustering algorithm
C. K-modes clustering algorithm
D. K-medoids clustering algorithm

Solution: (A)

Out of all the options, the K-Means clustering algorithm is most sensitive to outliers as it uses the mean of cluster data points to find the cluster centre.

Q11. After performing K-Means Clustering analysis on a dataset, you observed the following dendrogram. Which of the following conclusion can be drawn from the dendrogram?

Q 11, Clustering Techniques Skill Test

Options:
A. There were 28 data points in the clustering analysis
B. The best no. of clusters for the analyzed data points is 4
C. The proximity function used is Average-link clustering
D. The above dendrogram interpretation is not possible for K-Means clustering analysis

Solution: (D)

A dendrogram is not possible for K-Means clustering analysis. However, one can create a cluster gram based on it.

Q12. How can Clustering (Unsupervised Learning) be used to improve the accuracy of the Linear Regression model (Supervised Learning)?

  1. Creating different models for different cluster groups.
  2. Creating an input feature for cluster ids as an ordinal variable.
  3. Creating an input feature for cluster centroids as a continuous variable.
  4. Creating an input feature for cluster size as a continuous variable.

Options:
A. 1 only
B. 1 and 2
C. 1 and 4
D. 3 only
E. 2 and 4
F. All of the above

Solution: (F)

In the above clustering questions, creating an input feature for cluster IDs as ordinal variables or an input feature for cluster centroids as a continuous variable might not convey any relevant information to the regression model for multidimensional data. However, for clustering in a single dimension, all the given methods are expected to convey meaningful information to the regression model. For example, clustering people into two groups based on their hair length, and storing clustering IDs as ordinal variables and cluster centroids as continuous variables will convey meaningful information.

Q13. What could be the possible reason(s) for producing two different dendrograms using an agglomerative clustering algorithm for the same dataset?

A. Proximity function used
B. of data points used
C. of variables used
D. B and C only
E. All of the above

Solution: (E)

A change in either the proximity function, the number of data points, or the number of variables will lead to different clustering results and, hence, different dendrograms.

Q14. In the figure below, if you draw a horizontal line on the y-axis for y=2. What will be the number of clusters formed?

Q 14, Clustering Techniques Skill Test

Options:
A. 1
B. 2
C. 3
D. 4

Solution: (B)

Since the number of vertical lines intersecting the red horizontal line at y=2 in the dendrogram is 2, two clusters will be formed.

Q15. What is the most appropriate no. of clusters for the data points represented by the following dendrogram?

Q 15, Clustering Techniques Skill Test

Options:
A. 2
B. 4
C. 6
D. 8

Solution: (B)

The number of clusters that can best depict different groups can be chosen by observing the dendrogram. The best choice of clusters is the no. of vertical lines in the dendrogram cut by a horizontal line that can transverse the maximum distance vertically without intersecting a cluster.

A 14, Clustering Techniques Skill Test

In the above example, the best choice of no. of clusters will be 4 as the red horizontal line in the dendrogram below covers the maximum vertical distance AB.

Q16. In which of the following cases will K-Means clustering fail to give good results?

  1. Data points with outliers
  2. Data points with different densities
  3. Data points with round shapes
  4. Data points with non-convex shapes

Options:
A. 1 and 2
B. 2 and 3
C. 2 and 4
D. 1, 2 and 4
E. 1, 2, 3 and 4

Solution: (D)

The K-Means clustering algorithm fails to give good results when the data contains outliers, the density spread of data points across the data space differs, and the data points follow non-convex shapes.

A 16, Clustering Techniques Skill Test

Q17. Which metrics do we have for finding dissimilarity between two clusters in hierarchical clustering?

  1. Single-link
  2. Complete-link
  3. Average-link

Options:
A. 1 and 2
B. 1 and 3
C. 2 and 3
D. 1, 2 and 3

Solution: (D)

In the above clustering questions, all three methods, i.e., single link, complete link, and average link, can be used for finding dissimilarity between two clusters in hierarchical clustering( can be found in the Python library scikit-learn).

Q18. Which of the following is/are true?

  1. Clustering analysis is negatively affected by the multicollinearity of features
  2. Clustering analysis is negatively affected by heteroscedasticity

Options:
A. 1 only
B. 2 only
C. 1 and 2
D. None of them

Solution: (A)

In the above clustering questions, clustering analysis is not negatively affected by heteroscedasticity. Still, the results are negatively impacted by the multicollinearity of features/ variables used in clustering as the correlated feature/ variable will carry extra weight on the distance calculation than desired.

Context for Question 19: Given are six points with the following attributes
Q 19, Clustering Techniques Skill Test

Q19. Which of the following clustering representations and dendrogram depicts the use of MIN or single link proximity function in hierarchical clustering?

A. Q 19, Option A

B. Q 19, Option B

C. Q 19, Option C

D. Q 19, Option D

Solution: (A)

For the single link or MIN version of hierarchical clustering, the proximity of two clusters is the minimum distance between any two points in the different clusters. For instance, from the table, we see that the distance between points 3 and 6 is 0.11, the height at which they are joined into one cluster in the dendrogram. As another example, the distance between clusters {3, 6} and {2, 5} is given by dist({3, 6}, {2, 5}) = min(dist(3, 2), dist(6, 2), dist(3, 5), dist(6, 5)) = min(0.1483, 0.2540, 0.2843, 0.3921) = 0.1483.

Context for Question 20: Given are six points with the following attributes

Q20. Which of the following clustering representations and dendrogram depicts the use of MAX or complete link proximity function in hierarchical clustering?

A.   Q 20, Option A

B.  Q 20, Option B

C.  Q 20, Option C

D.  Q 20, Option D

Solution: (B)

In the above clustering questions, for the single link or MAX version of hierarchical clustering, the proximity of two clusters is defined as the maximum distance between any two points in the different clusters. Similarly, here points 3 and 6 are merged first. However, {3, 6} is merged with {4}, instead of {2, 5}. This is because the dist({3, 6}, {4}) = max(dist(3, 4), dist(6, 4)) = max(0.1513, 0.2216) = 0.2216, which is smaller than dist({3, 6}, {2, 5}) = max(dist(3, 2), dist(6, 2), dist(3, 5), dist(6, 5)) = max(0.1483, 0.2540, 0.2843, 0.3921) = 0.3921 and dist({3, 6}, {1}) = max(dist(3, 1), dist(6, 1)) = max(0.2218, 0.2347) = 0.2347.

Context for Question 21: Given are six points with the following attributes
 Q 21, Clustering Techniques Skill Test

Q21. Which of the following clustering representations and dendrogram depicts the use of the group average proximity function in hierarchical clustering?

A.  Q 21, Option A

B.  Q 21, Option B
C. Q 21, Option C

D. Q 21, Option D

Solution: (C)

For the group average version of hierarchical clustering, the proximity of two clusters is the average of the pairwise proximities between all pairs of points in the different clusters. This is an intermediate approach between MIN and MAX. The following equation expresses this:

proximity function in hierarchical clustering

Here, the distance between some clusters. dist({3, 6, 4}, {1}) = (0.2218 + 0.3688 + 0.2347)/(3 ∗ 1) = 0.2751. dist({2, 5}, {1}) = (0.2357 + 0.3421)/(2 ∗ 1) = 0.2889. dist({3, 6, 4}, {2, 5}) = (0.1483 + 0.2843 + 0.2540 + 0.3921 + 0.2042 + 0.2932)/(6∗1) = 0.2637. Because dist({3, 6, 4}, {2, 5}) is smaller than dist({3, 6, 4}, {1}) and dist({2, 5}, {1}), these two clusters are merged at the fourth stage.

Context for Question 22: Given are six points with the following attributes
Q 22, Clustering Techniques Skill Test

Q22. Which of the following clustering representations and dendrogram depicts the use of Ward’s method proximity function in hierarchical clustering?

A. Q 22, Option A

B. Q 22, Option B

C.  Q 22, Option C

D. Q 22, Option D

Solution: (D)

Ward method is a centroid method. The centroid method calculates the proximity between two clusters by calculating the distance between the centroids of clusters. For Ward’s method, the proximity between two clusters is defined as the increase in the squared error that results when two clusters are merged. The results of applying Ward’s method to the sample data set of six points. The resulting clustering is somewhat different from those produced by MIN, MAX, and group average.

Q23. What should be the best choice of no. of clusters based on the following results?

Q 23, Clustering Techniques Skill Test

Options:
A. 1
B. 2
C. 3
D. 4

Solution: (C)

The silhouette coefficient measures how similar an object is to its own cluster compared to other clusters. The number of clusters for which the silhouette coefficient is highest represents the best choice of clusters.

Q24. Which of the following is/are valid iterative strategies for treating missing values before clustering analysis?

Options:
A. Imputation with mean
B. Nearest Neighbor assignment
C. Imputation with Expectation Maximization algorithm
D. All of the above

Solution: (C)

In the above clustering questions, all of the mentioned techniques are valid for treating missing values before clustering analysis. Still, only imputation with the EM algorithm is iterative in its functioning.

Q25. The K-Means algorithm has some limitations. For example, it makes hard assignments (A point either completely belongs to a cluster or not belongs at all) of points to clusters.

Note: Soft assignment can be considered as the probability of being assigned to each cluster: say K = 3 and for some point xn, p1 = 0.7, p2 = 0.2, p3 = 0.1)
Which of the following algorithm(s) allows soft assignments?

  1. Gaussian mixture models
  2. Fuzzy K-means

Options:
A. 1 only
B. 2 only
C. 1 and 2
D. None of these

Solution: (C)

Both, Gaussian mixture models and Fuzzy K-means allow soft assignments.

Q26. Assume you want to cluster 7 observations into 3 clusters using the K-Means clustering algorithm. After the first iteration, clusters C1, C2, C3 have following observations:

C1: {(2,2), (4,4), (6,6)}
C2: {(0,4), (4,0)}
C3: {(5,5), (9,9)}
What will be the cluster centroids if you want to proceed with the second iteration?

Options:
A. C1: (4,4), C2: (2,2), C3: (7,7)
B. C1: (6,6), C2: (4,4), C3: (9,9)
C. C1: (2,2), C2: (0,0), C3: (5,5)
D. None of these

Solution: (A)

Finding centroid for data points in cluster C1 = ((2+4+6)/3, (2+4+6)/3) = (4, 4)
Identifying centroid for data points in cluster C2 = ((0+4)/2, (4+0)/2) = (2, 2)
Finding centroid for data points in cluster C3 = ((5+9)/2, (5+9)/2) = (7, 7)
Hence, C1: (4,4),  C2: (2,2), C3: (7,7)

Q27. Assume you want to cluster 7 observations into 3 clusters using the K-Means clustering algorithm. After first iteration, clusters C1, C2, C3 have following observations:

C1: {(2,2), (4,4), (6,6)}
C2: {(0,4), (4,0)}
C3: {(5,5), (9,9)}
What will be the Manhattan distance for observation (9, 9) from cluster centroid C1 in the second iteration?

Options:
A. 10
B. 5*sqrt(2)
C. 13*sqrt(2)
D. None of these

Solution: (A)

Manhattan distance between centroid C1, i.e., (4, 4) and (9, 9) = (9-4) + (9-4) = 10

Q28. If two variables, V1 and V2, are used for clustering. Which of the following are true for K means clustering with k =3?

  1. If V1 and V2 have a correlation of 1, the cluster centroids will be in a straight line
  2. If V1 and V2 have a correlation of 0, the cluster centroids will be in a straight line

Options:
A. 1 only
B. 2 only
C. 1 and 2
D. None of the above

Solution: (A)

If the correlation between the variables V1 and V2 is 1, then all the data points will be in a straight line. Hence, all three cluster centroids will form a straight line as well.

Q29. Feature scaling is an important step before applying the K-Mean algorithm. What is the reason behind this?

Options:
A. In distance calculation, it will give the same weights for all features
B. You always get the same clusters. If you use or don’t use feature scaling
C. In Manhattan distance, it is an important step, but in Euclidean distance, it is not
D. None of these

Solution: (A)

In the above clustering questions, feature scaling ensures that all the features get the same weight in the clustering analysis. Consider a scenario of clustering people based on their weights (in KG), which range from 55 to 110, and height (in inches), which ranges from 5.6 to 6.4. In this case, the clusters produced without scaling can be very misleading, as the weight range is much higher than that of height. Therefore, bringing them to the same scale is necessary to have equal weightage on the clustering result.

Q30. Which of the following methods is used for finding the optimal of a cluster in the K-Mean algorithm?

Options:
A. Elbow method
B. Manhattan method
C. Ecludian method
D. All of the above
E. None of these

Solution: (A)

Out of the given options, only the elbow method is used to find the optimal number of clusters. The elbow method looks at the percentage of variance explained as a function of the number of clusters: One should choose several clusters so that adding another cluster doesn’t give much better modelling of the data.

Q31. What is true about K-Mean Clustering?

  1. K-means is extremely sensitive to cluster center initializations
  2. Bad initialization can lead to Poor convergence speed
  3. Bad initialization can lead to bad overall clustering

Options:
A. 1 and 3
B. 1 and 2
C. 2 and 3
D. 1, 2 and 3

Solution: (D)

All three of the given statements are true. K-means is extremely sensitive to cluster center initialization. Also, bad initialization can lead to Poor convergence speed as well as bad overall clustering.

Q32. Which of the following can be applied to get good results for the K-means algorithm corresponding to global minima?

  1. Try to run the algorithm for different centroid initialization
  2. Adjust the number of iterations
  3. Find out the optimal number of clusters

Options:
A. 2 and 3
B. 1 and 3
C. 1 and 2
D. All of above

Solution: (D)

All of these are standard practices that are used in order to obtain good clustering results.

Q33. What should be the best choice for the number of clusters based on the following results?

Q 33, Clustering Techniques Skill Test

Options:
A. 5
B. 6
C. 14
D. Greater than 14

Solution: (B)

In the above clustering questions, based on the above results, 6 is the best number of clusters to use the elbow method.

Q34. Based on the following results, what should be the best choice for the number of clusters?

Q 34, Clustering Techniques Skill Test

Options:
A. 2
B. 4
C. 6
D. 8

Solution: (C)

Generally, a higher average silhouette coefficient indicates better clustering quality. In this plot, the optimal clustering number of grid cells in the study area should be 2, at which the value of the average silhouette coefficient is the highest. However, the SSE of this clustering solution (k = 2) is too large. At k = 6, the SSE is much lower. In addition, the value of the average silhouette coefficient at k = 6 is also very high, which is just lower than k = 2. Thus, the best choice is k = 6.

Q35. Which of the following sequences is correct for a K-Means algorithm using the Forgy method of initialization?

  1. Specify the number of clusters
  2. Assign cluster centroids randomly
  3. Assign each data point to the nearest cluster centroid
  4. Re-assign each point to the nearest cluster centroid
  5. Re-compute cluster centroids

Options:
A. 1, 2, 3, 5, 4
B. 1, 3, 2, 4, 5
C. 2, 1, 3, 4, 5
D. None of these

Solution: (A)

The methods used for initialization in K means are Forgy and Random Partition. The Forgy method randomly chooses k observations from the data set and uses these as the initial means. The Random Partition method randomly assigns a cluster to each observation. Then it proceeds to the update step, thus computing the initial mean as the centroid of the cluster’s randomly assigned points.

Q36. If you use Multinomial mixture models with the expectation-maximization algorithm for clustering data points into two clusters, which of the assumptions are important?

Options:
A. All the data points follow two Gaussian distribution
B. All the data points follow n Gaussian distribution (n >2)
C. All the data points follow two multinomial distribution
D. All the data points follow n multinomial distribution (n >2)

Solution: (C)

In the EM algorithm for clustering, it’s essential to choose the same number of clusters to classify the data points into the number of different distributions they are expected to be generated from, and the distributions must be of the same type.

Q37. Which of the following is/are not true about the centroid-based K-means clustering algorithm and Distribution-based expectation-maximization clustering algorithm?

  1. Both start with random initializations
  2. Both are iterative algorithms
  3. Both have strong assumptions that the data points must fulfil
  4. Both are sensitive to outliers
  5. The expectation-maximization algorithm is a special case of K-Means
  6. Both require prior knowledge of the no. of desired clusters
  7. The results produced by both are non-reproducible

Options:
A. 1 only
B. 5 only
C. 1 and 3
D. 6 and 7
E. 4, 6 and 7
F. None of the above

Solution: (B)

In the above to this clustering question, all of the above statements are true except the 5th as K-Means is a special case of EM algorithm in which only the centroids of the cluster distributions are calculated at each iteration.

Q38. Which of the following is/are not true about the DBSCAN clustering algorithm?

  1. For data points to be in a cluster, they must be in a distance threshold to a core point
  2. It has strong assumptions for the distribution of data points in the dataspace
  3. It has a substantially high time complexity of order O(n3)
  4. It does not require prior knowledge of the no. of desired clusters
  5. It is robust to outliers

Options:
A. 1 only
B. 2 only
C. 4 only
D. 2 and 3
E. 1 and 5
F. 1, 3 and 5

Solution: (D)

DBSCAN can form a cluster of any arbitrary shape and does not have strong assumptions for the distribution of data points in the data space. DBSCAN has a low time complexity of order O(n log n) only.

Q39. Which of the following are the high and low bounds for F-Score?

Options:
A. [0,1]
B. (0,1)
C. [-1,1]
D. None of the above

Solution: (A)

In the above clustering questions, the lowest and highest possible values of the F score are 0 and 1, where 1 means that every data point is assigned to the correct cluster, and 0 means that the clustering analysis’s precession and/or recall are both 0. In clustering analysis, a high value of F score is desired.

Q40. Following are the results observed for clustering 6000 data points into 3 clusters: A, B, and C:

Precision  Recall

Options:
A. 3
B. 4
C. 5
D. 6

Solution: (D)

Here,
True Positive, TP = 1200
True Negative, TN = 600 + 1600 = 2200
False Positive, FP = 1000 + 200 = 1200
False Negative, FN = 400 + 400 = 800
Therefore,
Precision = TP / (TP + FP) = 0.5
Recall = TP / (TP + FN) = 0.6
Hence,
F1  = 2 (Precision Recall)/ (Precision + recall) = 0.54 ~ 0.5

Conclusion

You have successfully completed our skill test, which focused on the conceptual and practical knowledge of clustering fundamentals and its various techniques. I hope that taking this test and finding the solutions has helped you gain knowledge and boost your confidence in the topic. I hope your article enables you to understand the clustering interview questions.

Suppose you are preparing for a data science job interview. In that case, I suggest you also check out our guides of important interview questions on logistic regressionSQLtensor flowk-nearest neighbour, and Naive Bayes.

Here are a few blogs that will help you crack your interview:

Saurav is a Data Science enthusiast, currently in the final year of his graduation at MAIT, New Delhi. He loves to use machine learning and analytics to solve complex data problems.

Responses From Readers

Clear

Eudie
Eudie

I am confused with question 40. It says the correct answer in D(6) and solution shows C(5). Anyway, rounding of 5.4 to 5 is not very clean.

Arihant
Arihant

Thanks for the test. Appreciate it. One feedback : Please classify what is good /bad score according to difficulty level of test.

lithika jessi
lithika jessi

This blog giving the details of technology. This gives the details about working with the business processes and change the way. Here explains think different and work different then provide the better output. Thanks for this blog.

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