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Assignment: 2D Arrays | Basics of C++ - Software Development PDF Download

MCQs (Multiple Choice Questions)

Q.1. What is a 2D array?
(a) An array with 2 elements
(b) An array with 2 dimensions
(c) An array with 2 data types
(d) An array with 2 indexes

Ans. (b)

Q.2. How do you declare a 2D array in C++?
(a) int array[2][2];
(b) int array(2)(2);
(c) int array{2, 2};
(d) int array[2, 2];

Ans. (a)

Q.3. What is the result of adding two 2D arrays element-wise?
(a) Concatenation of the arrays
(b) Matrix multiplication
(c) Addition of corresponding elements
(d) Subtraction of corresponding elements

Ans. (c)

Q.4. Which loop structure is commonly used to iterate over a 2D array?
(a) for loop
(b) while loop
(c) do-while loop
(d) foreach loop

Ans. (a)

Q.5. Which of the following is true about a 2D array in C++?
(a) The size of a 2D array must be known at compile time.
(b) A 2D array can have a different number of columns for each row.
(c) A 2D array can only store integers.
(d) A 2D array can only have two rows and two columns.

Ans. (b)

Fill in the Blanks

Q.1. A 2D array can be thought of as an array of __________.

Ans. arrays

Q.2. To declare a 2D array in C++, we specify the number of _________ and _________.

Ans. rows, columns

Q.3. The elements of a 2D array are accessed using _______ and _______ indices.

Ans. row, column

Q.4. The size of a 2D array with n rows and m columns is ________.

Ans. n * m

Q.5. To initialize a 2D array during declaration, we can use ________ initialization.

Ans. brace

True or False

Q.1. A 2D array can be jagged, meaning different rows can have a different number of elements.

Ans. True

Q.2. The index of the first row in a 2D array is 1.

Ans. False

Q.3. A 2D array can store elements of different data types.

Ans. True

Q.4. The number of elements in a 2D array with n rows and m columns is n * m.

Ans. True

Q.5. A 2D array can be resized dynamically during runtime.

Ans. False

Hands-On Questions

Q.1. Write a C++ program to add two 2D arrays and store the result in a third 2D array. Display the resulting array.

#include <iostream>


const int ROWS = 2;

const int COLS = 2;


void addArrays(int arr1[ROWS][COLS], int arr2[ROWS][COLS], int result[ROWS][COLS])

{

    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            result[i][j] = arr1[i][j] + arr2[i][j];

        }

    }

}


void displayArray(int arr[ROWS][COLS])

{

    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            std::cout << arr[i][j] << " ";

        }

        std::cout << std::endl;

    }

}


int main()

{

    int arr1[ROWS][COLS] = {{1, 2}, {3, 4}};

    int arr2[ROWS][COLS] = {{5, 6}, {7, 8}};

    int result[ROWS][COLS] = {};


    addArrays(arr1, arr2, result);


    std::cout << "Resultant Array:\n";

    displayArray(result);


    return 0;

}

Q.2. Write a C++ program to find the maximum element in a given 2D array and display its value.

#include <iostream>


const int ROWS = 3;

const int COLS = 4;


int findMaxElement(int arr[ROWS][COLS])

{

    int maxElement = arr[0][0];


    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            if (arr[i][j] > maxElement) {

                maxElement = arr[i][j];

            }

        }

    }


    return maxElement;

}


int main()

{

    int arr[ROWS][COLS] = {

        {4, 2, 7, 1},

        {6, 9, 5, 3},

        {8, 0, 2, 4}

    };


    int maxElement = findMaxElement(arr);


    std::cout << "Maximum element: " << maxElement << std::endl;


    return 0;

}

Q.3. Write a C++ program to transpose a given 2D array. Display the original and transposed arrays.

#include <iostream>


const int ROWS = 3;

const int COLS = 4;


void transposeArray(int arr[ROWS][COLS], int transposed[COLS][ROWS])

{

    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            transposed[j][i] = arr[i][j];

        }

    }

}


void displayArray(int arr[ROWS][COLS])

{

    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            std::cout << arr[i][j] << " ";

        }

        std::cout << std::endl;

    }

}


int main()

{

    int arr[ROWS][COLS] = {

        {1, 2, 3, 4},

        {5, 6, 7, 8},

        {9, 10, 11, 12}

    };

    int transposed[COLS][ROWS] = {};


    std::cout << "Original Array:\n";

    displayArray(arr);


    transposeArray(arr, transposed);


    std::cout << "\nTransposed Array:\n";

    displayArray(transposed);


    return 0;

}

Q.4. Write a C++ program to check if a given 2D array is symmetric or not. A matrix is said to be symmetric if it is equal to its transpose.

#include <iostream>


const int SIZE = 3;


bool isSymmetric(int arr[SIZE][SIZE])

{

    for (int i = 0; i < SIZE; i++) {

        for (int j = 0; j < SIZE; j++) {

            if (arr[i][j] != arr[j][i]) {

                return false;

            }

        }

    }


    return true;

}


int main()

{

    int symmetricArray[SIZE][SIZE] = {

        {1, 2, 3},

        {2, 4, 5},

        {3, 5, 6}

    };


    int nonSymmetricArray[SIZE][SIZE] = {

        {1, 2, 3},

        {4, 5, 6},

        {7, 8, 9}

    };


    if (isSymmetric(symmetricArray)) {

        std::cout << "The array is symmetric.\n";

    } else {

        std::cout << "The array is not symmetric.\n";

    }


    if (isSymmetric(nonSymmetricArray)) {

        std::cout << "The array is symmetric.\n";

    } else {

        std::cout << "The array is not symmetric.\n";

    }


    return 0;

}

Q.5. Write a C++ program to find the sum of each row and each column in a given 2D array. Display the sums.

#include <iostream>


const int ROWS = 3;

const int COLS = 4;


void calculateSums(int arr[ROWS][COLS])

{

    int rowSums[ROWS] = {};

    int colSums[COLS] = {};


    for (int i = 0; i < ROWS; i++) {

        for (int j = 0; j < COLS; j++) {

            rowSums[i] += arr[i][j];

            colSums[j] += arr[i][j];

        }

    }


    std::cout << "Row sums:\n";

    for (int i = 0; i < ROWS; i++) {

        std::cout << "Row " << i + 1 << ": " << rowSums[i] << std::endl;

    }


    std::cout << "\nColumn sums:\n";

    for (int j = 0; j < COLS; j++) {

        std::cout << "Column " << j + 1 << ": " << colSums[j] << std::endl;

    }

}


int main()

{

    int arr[ROWS][COLS] = {

        {1, 2, 3, 4},

        {5, 6, 7, 8},

        {9, 10, 11, 12}

    };


    calculateSums(arr);


    return 0;

}

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