What is the difference between a heap and BST?
When to use a heap and when to use a BST?
If you want to get the elements in a sorted fashion, is BST better over heap?
What is the difference between a heap and BST? When to use a heap and when to use a BST? If you want to get the elements in a sorted fashion, is BST better over heap? 


Heap just guarantees that elements on higher levels are greater (for maxheap) or smaller (for minheap) than elements on lower levels, whereas BST guarantees order (from "left" to "right"). If you want sorted elements, go with BST. 


Heap is better at findMin/findMax ( First few slides from here explain things very clearly. 


Advantages of binary heap over a balanced BST
Advantage of BST over binary heap
"False" advantage of heap over BST
Average binary heap insert is O(1) Sources:
Intuitive argument:
In a binary heap, increasing the value at a given index is also BST cannot be efficiently implemented on an array Heap operations only need to bubble up or down a single tree branch. Keeping a BST balanced requires tree rotations, which can change the top element for another one, and would require moving the entire array around. Philosophy
See also Similar question on CS: http://cs.stackexchange.com/questions/27860/whatsthedifferencebetweenabinarysearchtreeandabinaryheap 


A binary search tree uses the definition: that for every node,the node to the left of it has a less value(key) and the node to the right of it has a greater value(key). Where as the heap,being an implementation of a binary tree uses the following definition: If A and B are nodes, where B is the child node of A,then the value(key) of A must be larger than or equal to the value(key) of B.That is, key(A) ≥ key(B). http://wiki.answers.com/Q/Difference_between_binary_search_tree_and_heap_tree I ran in the same question today for my exam and I got it right. smile ... :) 


As mentioned by others, Heap can do In this modified BST, you keep track of the the min node and max node everytime you do an operation that can potentially modify the data structure. For example in insert operation you can check if the min value is larger than the newly inserted value, then assign the min value to the newly added node. The same technique can be applied on the max value. Hence, this BST contain these information which you can retrieve them in O(1). (same as binary heap) In this BST (Balanced BST), when you I would be interested to hear your thought in the comment below. Thanks :) UpdateCross reference to similar question Can we use binary search tree to simulate heap operation? for more discussion on simulating Heap using BST. 


Another use of BST over Heap; because of an important difference :
Use of BST over a Heap: Now, Lets say we use a data structure to store landing time of flights. We cannot schedule a flight to land if difference in landing times is less than 'd'. And assume many flights have been scheduled to land in a data structure(BST or Heap). Now, we want to schedule another Flight which will land at t. Hence, we need to calculate difference of t with its successor and predecessor (should be >d). Thus, we will need a BST for this, which does it fast i.e. in O(logn) if balanced. EDITed: Sorting BST takes O(n) time to print elements in sorted order (Inorder traversal), while Heap can do it in O(n logn) time. Heap extracts min element and reheapifies the array, which makes it do the sorting in O(n logn) time. 


Insert all n elements from an array to BST takes O(n logn). n elemnts in an array can be inserted to a heap in O(n) time. Which gives heap a definite advantage 

