**Title: Converting Decimal Integers to Binary Notation****Section: Understanding Decimal and Binary Systems****Introduction:**Consider the following decimal integer.**Example:**The decimal integer in question is:**1,311** (displayed in red for emphasis)**Task:**Represent the decimal integer in binary notation.**Input Box:**A blank input box is provided for the answer, followed by a subscript "2" indicating that the representation should be in base-2 (binary format).---In this task, you are required to convert the given decimal number (1311) into its binary equivalent. The binary number system, also known as base-2, uses only two digits: 0 and 1. Each digit in a binary number represents an increasing power of 2, starting from the rightmost digit, which represents $2^0$.**Steps for Conversion:**1. **Divide the decimal number by 2.**2. **Write down the remainder.**3. **Divide the quotient obtained in the previous step by 2.**4. **Repeat the process until the quotient is 0.**5. **The binary representation is the sequence of remainders read from bottom to top.**Use this method to convert the above decimal number and enter your result in the provided input box.Additionally, the notion of base-2 (binary) notation is critical in computer science and digital electronics, where binary digits (bits) represent the basic unit of data. Understanding how to convert between decimal and binary systems is essential for various applications, including data processing and programming.

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Description: **Title: Converting Decimal Integers to Binary Notation****Section: Understanding Decimal and Binary Systems****Introduction:**Consider the following decimal integer.**Example:**The decimal integer in question is:**1,311** (displayed in red for emph

According to the given information, it is required to represent the decimal integer 1311 in binary…

Answered: Consider the following decimal integer.…

Math

Advanced Math

Consider the following decimal integer. 1,311 Represent the decimal integer in binary notation. 2

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

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**Title: Converting Decimal Integers to Binary Notation**

**Section: Understanding Decimal and Binary Systems**

**Introduction:**
Consider the following decimal integer.

**Example:**
The decimal integer in question is:
**1,311** (displayed in red for emphasis)

**Task:**
Represent the decimal integer in binary notation.

**Input Box:**
A blank input box is provided for the answer, followed by a subscript "2" indicating that the representation should be in base-2 (binary format).

---

In this task, you are required to convert the given decimal number (1311) into its binary equivalent. The binary number system, also known as base-2, uses only two digits: 0 and 1. Each digit in a binary number represents an increasing power of 2, starting from the rightmost digit, which represents $2^0$.

**Steps for Conversion:**

1. **Divide the decimal number by 2.**
2. **Write down the remainder.**
3. **Divide the quotient obtained in the previous step by 2.**
4. **Repeat the process until the quotient is 0.**
5. **The binary representation is the sequence of remainders read from bottom to top.**

Use this method to convert the above decimal number and enter your result in the provided input box.

Additionally, the notion of base-2 (binary) notation is critical in computer science and digital electronics, where binary digits (bits) represent the basic unit of data. Understanding how to convert between decimal and binary systems is essential for various applications, including data processing and programming.

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