Previous Year Questions: n-ary tree | Programming and Data Structures - Computer Science Engineering (CSE) PDF Download

Q1: Consider the following rooted tree with the vertex labelled P as the root  (2014 SET 3)
Previous Year Questions: n-ary tree | Programming and Data Structures - Computer Science Engineering (CSE) The order in which the nodes are visited during an in-order traversal of the tree is
(a) SQPTRWUV
(b) SQPTUWRV
(c) SQPTWUVR
(d) SQPTRUWV
Ans: 
(a)
Sol: The inorder traversal of a ternary tree is given by Left > Root > Middle > Right.
But if you apply this traversal sequence on this tree, the order is SQPTWURV.
According to the answer given by various books, the answer is (A).
(A) can only be the answer if we consider 'S' to be the left child of 'Q', and 'W' to be the left child of 'U'.


Q2: A complete n-ary tree is a tree in which each node has n children or no children. Let I be the number of internal nodes and L be the number of leaves in a complete n-ary tree. If L = 41, and I = 10,what is the value of n?  (2007)
(a) 3
(b) 4
(c) 5
(d) 6
Ans:
(c)
Sol: If you do little bit experiments on no of leaves, Internal nodes, you will realize that they have equation like following :-
No of leaves (L) = (n − 1)∗ Internal Nodes (I) + 1
Here we need to find n.
Putting values
41 = (n − 1) ∗ 10 + 1
 ⟹ (n − 1) ∗ 10 = 40
⟹ n − 1 = 4
⟹ n = 5

Q3: In a complete k-ary tree, every internal node has exactly k children. The number of leaves in such a tree with n internal nodes is:  (2005)
(a) nk
(b) (n -1)k + 1
(c) n(k - 1) + 1
(d) n(k -1)
Ans: (c)
Sol: 
Originally when we have root , there is only 1 node, which is leaf. (There is no internal node.) From that "+1" part of formula comes from this base case.
 When we k children to nodes, we make root internal. So then Total Leaves
 = n (k −1) + 1 = (k − 1) + k
In k complete k ary tree every time you add k children , you add k − 1 leaves.(+k for leaves,−1 for node which you are attaching )

Q4: The number of leaf nodes in a rooted tree of n nodes, with each node having 0 or 3 children is  (2002)
(a)  n/2
(b) (n−1) /3
(c) (n−1)/2
(d) (2n+1)/3

Ans: (d)
Sol: 
L = leaf nodes
I = internal nodes
n = total nodes = L + I 
In a tree no. of edges = n − 1 
All edges are produced by only internal nodes so,
k × I = n − 1  → ( 1 ) (for k − ary tree, in this question k = 3) 
L + I = n  → ( 2 )
Here, given options are in terms of "n". So, eliminating I from (1) and (2), 
L = ((k − 1)n + 1)/k 
you get L = (2n + 1)/3
Answer is D.

Q5: A complete n-ary tree is one in which every node has 0 or n sons. If x is the number of internal nodes of a complete n-ary tree, the number of leaves in it is given by  (1998)
(a) x(n-1)+1
(b) xn-1
(c) xn+1
(d) x(n+1)
Ans: (a)
Sol: 
x (n − 1) + 1
Originally when we have root , there is only node, which is leaf. (There is no internal node.) From this base case "+1" part of formula comes. When we n children to root, we make root internal. So then Total Leaves
= 1(n − 1) + 1 = n .
In complete n ary tree every time you add children to node, you add n − 1 leaves & make that node to which you are inserting children internal.(+n for leaves,−1 for node which you are attaching ). So if you had originally few leaves, you add n − 1"New" leaves to them. This is how x(n − 1) + 1 makes sense.

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FAQs on Previous Year Questions: n-ary tree - Programming and Data Structures - Computer Science Engineering (CSE)

1. What is an n-ary tree in computer science?
Ans. An n-ary tree is a tree data structure in which each node can have a maximum of n children.
2. How is an n-ary tree different from a binary tree?
Ans. In an n-ary tree, each node can have multiple children (up to n), whereas in a binary tree, each node can have at most two children.
3. What are some common applications of n-ary trees in computer science?
Ans. N-ary trees are commonly used in representing hierarchical data structures such as file systems, organization charts, and parse trees in compilers.
4. How can you traverse an n-ary tree?
Ans. Traversal of an n-ary tree can be done using techniques such as depth-first traversal (preorder, postorder, and inorder) or breadth-first traversal (level order).
5. How can you implement an n-ary tree data structure in a programming language?
Ans. An n-ary tree can be implemented using a node structure that contains data and a list of child nodes. Additionally, you can create functions for inserting, deleting, and traversing the tree.
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