CS502 Midterm Online Quiz

CS502-Midterm

1 / 50

Heaps can be stored in arrays without using any pointers; this is due to the ____________ nature of the binary tree,

right-complete

tree leaves

tree nodes

left-complete

2 / 50

For the worst-case running time analysis, the nested loop structure containing one “for” and one “while” loop, might be expressed as a pair of _________nested summations.

3 / 50

Slow sorting algorithms run in,

T(n^2)

T(n)

T( log n)

4 / 50

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

Fast

TRUE

5 / 50

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

Normal

Best

Average

Worst

6 / 50

In Heap Sort algorithm, the total running time for Heapify procedure is ____________

O (1) i.e. Constant time

Theta (log n)

Omega (log n)

Order (log n)

7 / 50

The O-notation is used to state only the asymptotic ________bounds.

Both lower & upper

Two

Lower

Upper

8 / 50

A RAM is an idealized machine with ______________ random-access memory.

an infinitely large

100GB

512MB

256MB

9 / 50

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

FALSE

TRUE

10 / 50

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

increasing order only

(log n) order

heap order

decreasing order only

11 / 50

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

According to Pivot

Randomly

In increasing order

In decreasing order

12 / 50

In Heap Sort algorithm, we build _______ for ascending sort.

Max heap

Min heap

13 / 50

Sieve Technique can be applied to selection problem?

TRUE

FALSE

14 / 50

A (an) _________ is a left-complete binary tree that conforms to the heap order

binary tree

heap

binary search tree

array

15 / 50

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

arithmetic

orthogonal

geometric

linear

16 / 50

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

phases

constant

n items

pointers

17 / 50

The function f(n)= n(logn+1)/2 is asymptotically equivalent to n log n. Here Upper Bound means the function f(n) grows asymptotically ____________ faster than n log n.

Quiet

At least

Not

18 / 50

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

FALSE

TRUE

19 / 50

For the sieve technique we solve the problem,

recursively

precisely

accurately

mathematically

20 / 50

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

Infinite

Variable

Constant

Continuous

21 / 50

For Chain Matrix Multiplication we can not use divide and conquer approach because,

We can easily perform it in linear time

We use divide and conquer for sorting only

We do not know the optimum k

Size of data is not given

22 / 50

In RAM model instructions are executed

Random

One after another

Concurrent

Parallel

23 / 50

______________ graphical representation of algorithm.

asymptotic

Flowchart

24 / 50

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

p.x only

p.x & p.z

p.x & p.y

p.y only

25 / 50

Quick sort is

Some time stable & some times in place

Not stable but in place

Stable & in place

Stable but not in place

26 / 50

Quick sort is best from the perspective of Locality of reference.

FALSE

TRUE

27 / 50

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

Results

Variables

Size

Growth rates

28 / 50

Counting sort has time complexity:

O(k)

O(nlogn)

O(n)

O(n+k)

29 / 50

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

X & Y

30 / 50

Sorting can be in _________

Decreasing order only

Random order

Both Increasing and Decreasing order

Increasing order only

31 / 50

Quick sort is based on divide and conquer paradigm; we divide the problem on base of pivot element and:

None of above.

There is explicit combine process as well to conquer the solution.

No work is needed to combine the sub-arrays, the array is already sorted

Merging the sub arrays

32 / 50

In the analysis of Selection algorithm, we make a number of passes, in fact it could be as many as,

T(n)

T(n / 2)

n / 2 + n / 4

log n

33 / 50

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

Four

Three

Five

Two

34 / 50

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

Merge sort algorithm

Plane Sweep algorithm

Selection problem

Brute force technique

35 / 50

The number of nodes in a complete binary tree of height h is

((h+1) ^ 2) – 1

2 * (h+1) – 1

2^(h+1) – 1

2 * (h+1)

36 / 50

An algorithm is a mathematical entity that is dependent on a specific programming language.

FALSE

TRUE

37 / 50

In 2d-space a point is said to be ________if it is not dominated by any other point in that space.

Member

Joint

Minimal

Maximal

38 / 50

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

Sorting

Searching

Graphing

Both Searching & Sorting

39 / 50

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

n / 4 elements

2 n elements

(n / 2) elements

(n / 2)+n elements

40 / 50

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

few

many

41 / 50

Which sorting algorithm is faster

O (n+k)

O n^3

O (n log n)

O n^2

42 / 50

The reason for introducing Sieve Technique algorithm is that it illustrates a very important special case of,

greedy nature

decrease and conquer

2-dimension Maxima

divide-and-conquer

43 / 50

What type of instructions Random Access Machine (RAM) can execute?

Geometric and arithmetic

Parallel and recursive

Algebraic and logic

Arithmetic and logic

44 / 50

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

K is small

K may be small or large

K is not known

K is Large

45 / 50

44.The running time of an algorithm would not depend upon the optimization by the compiler but that of an implementation of the algorithm would depend on it.

FALSE

TRUE

46 / 50

What is the total time to heapify?

Ο(log n)

Ο(n2 log n)

Ο(log2 n)

Ο(n log n)

47 / 50

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.

All

Least

Normal

Most

48 / 50

Which may be a stable sort?

Insertion

None of the above

Both above

Merger

49 / 50

In Heap Sort algorithm, we build _______ for ascending sort.

Max heap

Min heap

50 / 50

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

FALSE

TRUE

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