CS502 Midterm Online Quiz

Which sorting algorithm is faster

How much time merge sort takes for an array of numbers?

For the Sieve Technique we take time

Algorithm is concerned with.......issues.

Which may be a stable sort?

In RAM model instructions are executed

Sorting is one of the few problems where provable ________ bonds exits on how fast we can sort,

Sorting can be in _________

The definition of Theta-notation relies on proving ___________asymptotic bound.

Cont sort is suitable to sort the elements in range 1 to k

Sieve Technique applies to problems where we are interested in finding a single item from a larger set of _____________

In Sieve Technique we do not know which item is of interest

Before sweeping a vertical line in plane sweep approach, in start sorting of the points is done in increasing order of their _______coordinates.

For small values of n, any algorithm is fast enough. Running time does become an issue when n gets large.

The analysis of Selection algorithm shows the total running time is indeed ________in n,

Algorithm analysts know for sure about efficient solutions for NP-complete problems.

The function f(n)=n(logn+1)/2 is asymptotically equivalent to nlog n. Here Lower Bound means function f(n) grows asymptotically at ____________ as fast as nlog n.

In simple brute-force algorithm, we give no thought to efficiency.

In ____________ we have to find rank of an element from given input.

A point p in 2-dimensional space is usually given by its integer coordinate(s)____________

In addition to passing in the array itself to Merge Sort algorithm, we will pass in _________other arguments which are indices.

Asymptotic growth rate of the function is taken over_________ case running time.

A RAM is an idealized algorithm with takes an infinitely large random-access memory.

If we associate (x, y) integers pair to cars where x is the speed of the car and y is the negation of the price. High y value for a car means a ________ car.

The array to be sorted is not passed as argument to the merge sort algorithm.

The ancient Roman politicians understood an important principle of good algorithm design that is plan-sweep algorithm.

Sieve Technique can be applied to selection problem?

The sieve technique is a special case, where the number of sub problems is just

In Heap Sort algorithm, if heap property is violated _________

For the heap sort we store the tree nodes in

In Quick Sort Constants hidden in T(n log n) are

How many elements do we eliminate in each time for the Analysis of Selection algorithm?

While solving Selection problem, in Sieve technique we partition input data __________w

One example of in place but not stable algorithm is

F (n) and g (n) are asymptotically equivalent. This means that they have essentially the same __________ for large n.

_________ is one of the few problems, where provable lower bounds exist on how fast we can sort.

Sieve Technique applies to problems where we are interested in finding a single item

from a larger set of _____________

In selection algorithm, because we eliminate a constant fraction of the array with each phase, we get the

Floor and ceiling are ____________ to calculate while analyzing algorithms.

A heap is a left-complete binary tree that conforms to the ___________

In Sieve Technique we do not know which item is of interest

The Knapsack problem belongs to the domain of _______________ problems.

The sieve technique works where we have to find _________ item(s) from a large input.

Is it possible to sort without making comparisons?

The time assumed for each basic operation to execute on RAM model of computation is-----

Random access machine or RAM is a/an

In analysis, the Upper Bound means the function grows asymptotically no faster than its largest term.

In Sieve Technique we do not know which item is of interest

The running time of quick sort depends heavily on the selection of

In plane sweep approach, a vertical line is swept across the 2d-plane and _______structure is used for holding the maximal points lying to the left of the sweep line.