explain multiplication of a vector by a scalar
Answers
Answer:
Multiplying a vector by a scalar is called scalar multiplication. To perform scalar multiplication, you need to multiply the scalar by each component of the vector. A scalar is just a fancy word for a real number. The name arises because a scalar scales a vector that is, it changes the scale of a vector.
Components of a Vector
Vectors are geometric representations of magnitude and direction and can be expressed as arrows in two or three dimensions
LEARNING OBJECTIVES
Contrast two-dimensional and three-dimensional vectors
KEY TAKEAWAYS
Key Points
- Vectors can be broken down into two components: magnitude and direction.
- By taking the vector to be analyzed as the hypotenuse, the horizontal and vertical components can be found by completing a right triangle. The bottom edge of the triangle is the horizontal component and the side opposite the angle is the vertical component.
- The angle that the vector makes with the horizontal can be used to calculate the length of the two components.
Key Terms
coordinates: Numbers indicating a position with respect to some axis. Ex:
x
and
y
coordinates indicate position relative to
x
and
y
axes.
axis: An imaginary line around which an object spins or is symmetrically arranged.
magnitude: A number assigned to a vector indicating its length.
Overview
Vectors are geometric representations of magnitude and direction which are often represented by straight arrows, starting at one point on a coordinate axis and ending at a different point. All vectors have a length, called the magnitude, which represents some quality of interest so that the vector may be compared to another vector. Vectors, being arrows, also have a direction. This differentiates them from scalars, which are mere numbers without a direction.
A vector is defined by its magnitude and its orientation with respect to a set of coordinates. It is often useful in analyzing vectors to break them into their component parts. For two-dimensional vectors, these components are horizontal and vertical. For three dimensional vectors, the magnitude component is the same, but the direction component is expressed in terms of
x
,
y
and
z
.
Decomposing a Vector
To visualize the process of decomposing a vector into its components, begin by drawing the vector from the origin of a set of coordinates. Next, draw a straight line from the origin along the x-axis until the line is even with the tip of the original vector. This is the horizontal component of the vector. To find the vertical component, draw a line straight up from the end of the horizontal vector until you reach the tip of the original vector. You should find you have a right triangle such that the original vector is the hypotenuse.
Decomposing a vector into horizontal and vertical components is a very useful technique in understanding physics problems. Whenever you see motion at an angle, you should think of it as moving horizontally and vertically at the same time. Simplifying vectors in this way can speed calculations and help to keep track of the motion of objects.