CS502 Midterm Online Quiz

CS502-Midterm

1 / 50

In which order we can sort?

increasing order or decreasing order

both at the same time

increasing order only

decreasing order only

2 / 50

One Example of in place but not stable sort is

Bubble

Merge

Quick

Heap

3 / 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

Most

Normal

4 / 50

In Heap Sort algorithm, the maximum levels an element can move upward is _________

O (1) i.e. Constant time

Omega (log n)

Theta (log n)

Order (log n)

5 / 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.

Not

At least

Quiet

6 / 50

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

phases

n items

pointers

constant

7 / 50

Floor and ceiling are ____________ to calculate while analyzing algorithms.

Usually considered difficult

Very easy

8 / 50

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.

Cheap

Slow

Fast

Expensive

9 / 50

Is it possible to sort without making comparisons?

Yes

10 / 50

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

O (1) i.e. Constant time

Order (log n)

Theta (log n)

Omega (log n)

11 / 50

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

Min heap

Max heap

12 / 50

If there are Θ (n2) entries in edit distance matrix then the total running time is

Θ (n2)

Θ (n log n)

Θ (1)

Θ (n)

13 / 50

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

FALSE

TRUE

14 / 50

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

Lower

Upper

Both lower & upper

Two

15 / 50

What is the total time to heapify?

Ο(log2 n)

Ο(n log n)

Ο(log n)

Ο(n2 log n)

16 / 50

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

Fast

TRUE

17 / 50

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

FALSE

TRUE

18 / 50

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

only p.x & p.z

p.x & p.y

p.x only p.y

19 / 50

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

T(n)

T(n log n)

T( log n)

T(n^2)

20 / 50

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

Geometric and arithmetic

Parallel and recursive

Algebraic and logic

Arithmetic and logic

21 / 50

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

FALSE

TRUE

22 / 50

Divide-and-conquer as breaking the problem into a small number of

pivot

Selection

Sieve

smaller sub problems

23 / 50

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

average

lower

log n

upper

24 / 50

Sieve Technique can be applied to selection problem?

TRUE

FALSE

25 / 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

26 / 50

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

orthogonal

geometric

linear

arithmetic

27 / 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.

28 / 50

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

Parallel and recursive

Arithmetic and logic

Geometric and arithmetic

Algebraic and logic

29 / 50

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

TRUE

FALSE

30 / 50

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.

Queue

Stack

Tree

Array

31 / 50

Sorting can be in _________

Decreasing order only

Random order

Increasing order only

Both Increasing and Decreasing order

32 / 50

When we call heapify then at each level the comparison performed takes time

It can not be predicted

It will take Θ (1)

Time will vary according to the nature of input data

It will take Θ (log n)

33 / 50

We cannot make any significant improvement in the running time which is better than that of brute-force algorithm.

FALSE

TRUE

34 / 50

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

K is not known

K may be small or large

K is Large

K is small

35 / 50

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

p.x & p.y

p.x & p.z

p.x only

p.y only

36 / 50

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

We can easily perform it in linear time

Size of data is not given

We use divide and conquer for sorting only

We do not know the optimum k

37 / 50

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

TRUE

FALSE

38 / 50

In Quick sort, we don’t have the control over the sizes of recursive calls

TRUE

FALSE

Either true or false

Less information to decide

39 / 50

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

None of these

Convergent geometric series

Divergent geometric series

40 / 50

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

Both Macro & Micro

Micro

Normal

Macro

41 / 50

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

Merge sort algorithm

Brute force technique

Plane Sweep algorithm

Selection problem

42 / 50

For the heap sort, access to nodes involves simple _______________ operations.

algebraic

logarithmic

arithmetic

binary

43 / 50

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

Both Searching & Sorting

Searching

Graphing

Sorting

44 / 50

Brute-force algorithm for 2D-Maxima is operated by comparing ________ pairs of points.

Two

Some

All

Most

45 / 50

What is the solution to the recurrence T(n) = T(n/2)+n .

O(n2)

O(nlogn)

O(logn)

O(n)

46 / 50

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

tree nodes

right-complete

left-complete

tree leaves

47 / 50

Which sorting algorithm is faster

O n^2

O n^3

O (n log n)

O (n+k)

48 / 50

The Knapsack problem belongs to the domain of _______________ problems.

Optimization

Sorting

NP Complete

Linear Solution

49 / 50

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

many

few

50 / 50

If the indices passed to merge sort algorithm are ________,then this means that there is only one element to sort.

Equal

Large

Not Equal

Small

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