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Java program to find the maximum and minimum value node from a doubly linked list.
#Source_code
#Doubly_linked_list
#Data_structure
#Source_code
#Doubly_linked_list
#Data_structure
Find the missing term in a sequence in logarithmic time
Given the missing term in a sequence in logarithmic time
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#Data_structure
#132
Given the missing term in a sequence in logarithmic time
#Source_code
#Data_structure
#132
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When looking for a place to insert a new key, traverse the tree from root-to-leaf, making comparisons to keys stored in the tree’s nodes and deciding based on the comparison to continue searching in the left or right subtrees. In other words, we examine the root and recursively insert the new node to the left subtree if its key is less than that of the root or the right subtree if its key is greater than or equal to the root.
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#Data_structure
#Recursion_Version
#135
#Source_code
#Data_structure
#Recursion_Version
#135
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Activity Selection Problem
Activity Selection Problem: Given a set of activities, along with the starting and finishing time of each activity, find the maximum number of activities performed by a single person assuming that a person can only work on a single activity at a time.
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#Data_Structure
#136
Activity Selection Problem: Given a set of activities, along with the starting and finishing time of each activity, find the maximum number of activities performed by a single person assuming that a person can only work on a single activity at a time.
#Source_code
#Data_Structure
#136
Given a set of positive integers S, partition set S into two subsets, S1 and S2, such that the difference between the sum of elements in S1 and S2 is minimized. The solution should return the minimum absolute difference between the sum of elements of two partitions.
#Source_code
#Minimum_Sum_Partition_problem
#Data_structure
#137
#Source_code
#Minimum_Sum_Partition_problem
#Data_structure
#137