Answer:
Step-by-step explanation:
for x= -4
h(x)= 4(-4) + 4
= -12+4
= -8
for x= -2
h(x)= 4(-2) + 4
= -8+4
= -4
for x=1
h(x)= 4(1) + 4
=8
for x=3
h(x)= 4(3) + 4
=12+4
=16
for x=5
h(x)= 4(5) + 4
=24
Answer: 15, 13, 11, 9, 7, 5, 3, 1
The pattern counts dwn or up by 2
Step-by-step explanation:
Answer:
Vectors are usually described in terms of their components in a coordinate system. Even in everyday life we naturally invoke the concept of orthogonal projections in a rectangular coordinate system. For example, if you ask someone for directions to a particular location, you will more likely be told to go 40 km east and 30 km north than 50 km in the direction 37° north of east.
In a rectangular (Cartesian) xy-coordinate system in a plane, a point in a plane is described by a pair of coordinates (x, y). In a similar fashion, a vector
→
A
in a plane is described by a pair of its vector coordinates. The x-coordinate of vector
→
A
is called its x-component and the y-coordinate of vector
→
A
is called its y-component. The vector x-component is a vector denoted by
→
A
x. The vector y-component is a vector denoted by
→
A
y. In the Cartesian system, the x and y vector components of a vector are the orthogonal projections of this vector onto the x– and y-axes, respectively. In this way, following the parallelogram rule for vector addition, each vector on a Cartesian plane can be expressed as the vector sum of its vector components:
Step-by-step explanation:
Answer:
It might be square of 13 and 14
Anyway the answer is
-13 square-14 square-1
So,
196-169-1
27-1=26 integers
