Let $u = \langle 6, -5 \rangle$, $v = \langle 3, 2 \rangle$, And \$w = \langle -4, 5 \rangle$[/tex\]. Calculate $(u \cdot V) W$.(Give Your Answer Using Component Form. Express Numbers In Exact Form. Use

Introduction

In the realm of mathematics, vectors play a crucial role in various fields, including physics, engineering, and computer science. Vectors are used to represent quantities with both magnitude and direction. In this article, we will explore the concept of the dot product and scalar multiplication, and how they can be used to calculate the product of two vectors.

Defining Vectors

A vector is a mathematical object that has both magnitude and direction. It can be represented graphically as an arrow in a coordinate system. In this article, we will work with vectors in two dimensions, which can be represented as ordered pairs of real numbers.

Let's define three vectors:

• $$u = \langle 6, -5 \rangle$$

• $$v = \langle 3, 2 \rangle$$

• $$w = \langle -4, 5 \rangle$$

The Dot Product

The dot product, also known as the scalar product, is a way to multiply two vectors together to get a scalar value. It is defined as the sum of the products of the corresponding components of the two vectors.

The dot product of two vectors $u = \langle u_1, u_2 \rangle$ and $v = \langle v_1, v_2 \rangle$ is given by:

$$u \cdot v = u_1v_1 + u_2v_2$$

Calculating the Dot Product

Using the definition of the dot product, we can calculate the dot product of vectors $u$ and $v$:

$$u \cdot v = (6)(3) + (-5)(2)$$

$$u \cdot v = 18 - 10$$

$$u \cdot v = 8$$

Scalar Multiplication

Scalar multiplication is a way to multiply a vector by a scalar value to get a new vector. It is defined as the product of the scalar value and each component of the vector.

Let's calculate the scalar product of vector $w$ and the scalar value $u \cdot v$:

$$(u \cdot v)w = (8)\langle -4, 5 \rangle$$

$$(u \cdot v)w = \langle (8)(-4), (8)(5) \rangle$$

$$(u \cdot v)w = \langle -32, 40 \rangle$$

Conclusion

In this article, we have explored the concept of the dot product and scalar multiplication, and how they can be used to calculate the product of two vectors. We have defined three vectors and calculated the dot product of two of them. We have also calculated the scalar product of a vector and a scalar value. The result of the calculation is a new vector, which is the product of the original vector and the scalar value.

Final Answer

The final answer is:

(u \cdot v)w = \langle -32, 40 \rangle$<br/> **Vector Calculations: Understanding the Dot Product and Scalar Multiplication - Q&A** ================================================================================ **Introduction** --------------- In our previous article, we explored the concept of the dot product and scalar multiplication, and how they can be used to calculate the product of two vectors. In this article, we will answer some frequently asked questions related to vector calculations. **Q&A** ------ ### Q: What is the dot product of two vectors? A: The dot product, also known as the scalar product, is a way to multiply two vectors together to get a scalar value. It is defined as the sum of the products of the corresponding components of the two vectors. ### Q: How do I calculate the dot product of two vectors? A: To calculate the dot product of two vectors, you need to multiply the corresponding components of the two vectors and add them together. For example, if we have two vectors $u = \langle u_1, u_2 \rangle$ and $v = \langle v_1, v_2 \rangle$, the dot product is given by: $u \cdot v = u_1v_1 + u_2v_2

Q: What is scalar multiplication?

A: Scalar multiplication is a way to multiply a vector by a scalar value to get a new vector. It is defined as the product of the scalar value and each component of the vector.

Q: How do I calculate the scalar product of a vector and a scalar value?

A: To calculate the scalar product of a vector and a scalar value, you need to multiply the scalar value by each component of the vector. For example, if we have a vector $w = \langle w_1, w_2 \rangle$ and a scalar value $c$, the scalar product is given by:

$$cw = \langle cw_1, cw_2 \rangle$$

Q: What is the difference between the dot product and scalar multiplication?

A: The dot product is a way to multiply two vectors together to get a scalar value, while scalar multiplication is a way to multiply a vector by a scalar value to get a new vector.

Q: Can I use the dot product and scalar multiplication to calculate the product of three vectors?

A: Yes, you can use the dot product and scalar multiplication to calculate the product of three vectors. However, you need to follow the order of operations and use the distributive property to simplify the calculation.

Q: What are some common applications of vector calculations?

A: Vector calculations have many applications in physics, engineering, and computer science. Some common applications include:

• Calculating the magnitude and direction of a vector
• Finding the angle between two vectors
• Calculating the cross product of two vectors
• Solving systems of linear equations

Conclusion

In this article, we have answered some frequently asked questions related to vector calculations. We have discussed the dot product, scalar multiplication, and how they can be used to calculate the product of two vectors. We have also explored some common applications of vector calculations.

Final Answer

The final answer is:

• The dot product of two vectors is a scalar value that is calculated by multiplying the corresponding components of the two vectors and adding them together.
• Scalar multiplication is a way to multiply a vector by a scalar value to get a new vector.
• The dot product and scalar multiplication can be used to calculate the product of two vectors.
• Vector calculations have many applications in physics, engineering, and computer science.