CS502 Midterm Online Quiz

CS502-Midterm

1 / 50

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

from a larger set of _____________

pointers

n items

phases

2 / 50

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

TRUE

FALSE

3 / 50

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

Four

Five

Two

Three

4 / 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.

5 / 50

Algorithm is a mathematical entity, which is independent of a specific machine and operating system.

FALSE

TRUE

6 / 50

Sorting can be in _________

Random order

Increasing order only

Both Increasing and Decreasing order

Decreasing order only

7 / 50

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

O(nlogn)

O(n)

O(n2)

O(logn)

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

Expensive

Slow

Fast

9 / 50

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

We do not know the optimum k

Size of data is not given

We use divide and conquer for sorting only

We can easily perform it in linear time

10 / 50

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

Medium

Small

Large

Not Known

11 / 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

12 / 50

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

few

many

13 / 50

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

FALSE

TRUE

14 / 50

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

divide-and-conquer

greedy nature

decrease and conquer

2-dimension Maxima

15 / 50

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

Merge sort algorithm

Brute force technique

Selection problem

Plane Sweep algorithm

16 / 50

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

FALSE

TRUE

17 / 50

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

orthogonal

arithmetic

linear

geometric

18 / 50

Due to left complete nature of binary tree, the heap can be stored in

Structures

Stack

Arrays

Link Lis

19 / 50

One example of in place but not stable algorithm is

Quick Sort

Continuation Sort

Bubble Sort

Merger Sort

20 / 50

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

FALSE

TRUE

21 / 50

In the analysis of Selection algorithm, we eliminate a constant fraction of the array with each phase; we get the convergent _______________ series in the analysis,

arithmetic

geometric

linear

exponent

22 / 50

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

TRUE

FALSE

23 / 50

For the sieve technique we solve the problem,

accurately

mathematically

recursively

precisely

24 / 50

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

T(n^2)

T( log n)

T(n log n)

T(n)

25 / 50

Brute-force algorithm uses no intelligence in pruning out decisions.

FALSE

TRUE

26 / 50

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

Worst

Average

Normal

Best

27 / 50

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

constant

n items

phases

pointers

28 / 50

Analysis of Selection algorithm ends up with,

T(1 / 1 + n)

T(n)

T((n / 2) + n)

T(n / 2)

29 / 50

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

Arrangement of elements in array

Pivot elements

Size o elements

No of inputs

30 / 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

31 / 50

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

Macro

Both Macro & Micro

Micro

Normal

32 / 50

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

binary

arithmetic

logarithmic

algebraic

33 / 50

Consider the following code:

For(j=1; j

For(k=1; k<15;k++)

For(l=5; l

{

Do_something_constant();

}

What is the order of execution for this code.

O(n2 log n)

O(n2)

O(n)

O(n3)

34 / 50

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

Results

Size

Growth rates

Variables

35 / 50

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

FALSE

TRUE

Less information to decide

Either true or false

36 / 50

An in place sorting algorithm is one that uses ___ arrays for storage

No Additional Array

Two dimensional arrays

More than one array

None of the above

37 / 50

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

Θ (1)

Θ (n)

Θ (n2)

Θ (n log n)

38 / 50

In analysis of f (n) =n (n/5) +n-10 log n, f (n) is asymptotically equivalent to ________.

n+1

n2

2n

n

39 / 50

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

FALSE

TRUE

40 / 50

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

K is small

K is not known

K is Large

K may be small or large

41 / 50

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

Parallel and recursive

Arithmetic and logic

Algebraic and logic

Geometric and arithmetic

42 / 50

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

Max heap

Min heap

43 / 50

Counting sort has time complexity:

O(n+k)

O(n)

O(nlogn)

O(k)

44 / 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)

45 / 50

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

Size of data is not given

We do not know the optimum k

We use divide and conquer for sorting only

We can easily perform it in linear time

46 / 50

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

Infinite

Continuous

Variable

Constant

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.

Most

All

Normal

Least

48 / 50

Quick sort is

Stable & in place

Stable but not in place

Not stable but in place

Some time stable & some times in place

49 / 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

50 / 50

Slow sorting algorithms run in,

T(n^2)

T(n)

T( log n)

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