When the elements...
... are not sorted
... have different sizes
... are only sequentially accessible
A tree doesn't do anything so it has no speed...
Binary search requires that the list be in search key order.
I think a binary tree is a thing to help you search whereas binary is 100100101010, that thing that computers use...I think the difference is that a binary tree helps you search but binary is the thing that computers use:10010101001010 The term binary refers to the idea that there are "2" options. In terms of computers at a low level, this refers to 1's and 0's (high voltage and low voltage). A binary tree is a completely different concept. It is a type of data structure with a parent node that branches down into 2 child nodes at each level. If implemented as a binary *search* tree it is pretty efficient at searching data sets that are ordered (O(log n))
To merge two binary search trees into a single binary search tree, you can perform an in-order traversal on each tree to extract their elements, combine the elements into a single sorted list, and then construct a new binary search tree from the sorted list. This process ensures that the resulting tree maintains the binary search tree property.
To find the height of a binary search tree in Java, you can use a recursive method that calculates the height of the left and right subtrees and returns the maximum height. This can be implemented by defining a method that takes the root node of the tree as input and recursively calculates the height of the tree.
Binary trees are commonly used to implement binary search tree and binary heaps.
A binary search is much faster.
It is 10111111 in binary. Try a search for '191 to binary'.
The only items suitable for a binary search are those which are in a sorted order.
no they are not same
No, binary search trees are not always balanced. Balancing a binary search tree involves ensuring that the height difference between the left and right subtrees of each node is at most 1. Unbalanced binary search trees can lead to inefficient search and insertion operations.
radix sort