Transform the equation x-3y=15 to express it in slope-intercept form
Answers
Answer:
y = (1/3)x - 5
Step-by-step explanation:
x - 3y = 15
x - 15 = 3y
3y = x -15
y = (1/3)x - 5
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Answer:
Step-by-step explanation:
An equation in slope-intercept form is .
Let's isolate y in our equation :
Our equation is in the form with
and
.
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The square of a number is equal to 10 less than 7 times that number. What are the two possible solutions?Which of the following equations is used in the process of solving this problem? x^2 - 7x + 70 = 0 x^2 - 7x + 10 = 0 x^2 + 7x - 10 = 0
The product of 5 more than p and 7?
Answers
The number of degrees does it move is 150 degrees.
The following things should be considered:
- Since there are 12 parts.
- Each one should we 30 degrees i.e.
- Now 8 - 3 = 5
- So, the angle should be
= 150 degrees.
Therefore we can conclude that The number of degrees does it move is 150 degrees.
Learn more: brainly.com/question/17429689
There 12 parts. Each one is 360/12=30°.
8-3=5 we have.
So, the angle will be 5*30=150°.
Answers
Answer: 3/4
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Explanation
The point (p,r) is on the line y = x+b
Plug in x = p and y = r to get r = p+b. Let's solve for b
r = p+b
b = r-p
This will be used later.
The point (2p,5r) is on the line y = 2x+b
Plug in those coordinates:
y = 2x+b
5r = 2*(2p)+b
5r = 4p+b
Next we replace b with r-p. This is valid because b = r-p.
5r = 4p+b
5r = 4p+r-p
5r = 3p+r
5r-r = 3p
4r = 3p
Then we follow the cross multiplication process in reverse.
4r = 3p
4r/4 = 3p/r
r = 3p/4
r/p = (3p/4)*(1/p)
r/p = 3/4 is the final answer
Final answer:
Using the given coordinates and equations, we find that the value of r/p is 3/4 after a process of subtracting and simplifying two equations.
Explanation:
The question is related to the linear equations in the xy-plane. Given two points, (p,r) and (2p,5r) which lie respectively on the equations y = x + b and y = 2x + b.
We have two points on two different lines:
- Point A: (p, r) lies on the line y = x + b.
- Point B: (2p, 5r) lies on the line y = 2x + b.
Substituting the coordinates of the first point into the first equation gives r = p + b. Similarly, substituting the coordinates of the second point into the second equation gives 5r = 2(2p) + b, which simplifies to 5r = 4p + b.
Now, subtract the first equation from the second to eliminate b, resulting in 5r - r = 4p - p, which simplifies to 4r = 3p.
Dividing by 4p gives us r/p = 3/4. So, the value of r/p is 3/4.
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Answers
The question says to identify an equation in point-intercept form for the line that's parallel to y = -3x + 7 that passes through (2, -4).
If you need to find an equation in point-intercept form that passes through a point, you will substitute the coordinate in this formula:
-> y - yo = m (x - xo)
Where:
(2, -4) -> xo = 2 ; yo = -4
m = Slope
You don't have the slope, but you have the information that the line is parallel to y = -3x + 7. Then you need to know that to a line be parallel to another the Slopes of each other must be equal, mr = ms.
Let's find the slope of the equation given, it is in a slope-intercept form, so:
y = mx + b
R: y = -3x + 7 // I will call this one R line, and the other S.
mr = -3
If the mr = ms, and mr = -3, then the ms = -3 too.
S: y - yo = ms (x - xo) // (2, -4) & ms = -3
-> y - (-4) = -3 (x - 2)
-> S: y + 4 = -3 (x - 2) -> This is the point-slope form.
-> y = -3x + 6 - 4
-> S: y = -3x - 2 -> This is the slope-intercept form.
I didn't understand what is the point-intercept form that the question requests, but by logic, i think that's the point-slope form.
Answer: The equation in point-intercept form is: y + 4 = -3 (x - 2).
Answers
Answer: 3
Step-by-step explanation:
(x + 4i) is a root which means its conjugate (x - 4i) is also a root
(x + 4i)(x - 4i) = x² + 16
Use Long Division for 2x⁵ - 13x⁴ + 22x³ - 187x² - 160x + 336 ÷ x² + 16
2x³ - 13x² - 10x + 21
x² + 16 ) 2x⁵ - 13x⁴ + 22x³ - 187x² - 160x + 336
- (2x⁵ + 0x⁴ + 32x³) ↓ ↓ ↓
-13x⁴ - 10x³ - 187x² ↓ ↓
- (-13x⁴ +0x³ - 208x²) ↓ ↓
-10x³ + 21x² - 160x ↓
- (-10x³ + 0x² - 160x) ↓
21x² + 0x + 336
- (21x² + 0x + 336)
0
Use Synthetic Division to divide (x - 7) by the reduced polynomial (2x³ - 13x² - 10x + 21)
7 | 2 -13 -10 21
| ↓ 14 7 -21
2 1 -3 0 ← remainder is 0
Use grouping to factor the reduced polynomial (2x² + x - 3)
2x² - 2x + 3x - 3
= 2x(x - 1) +1(x - 1)
= (2x + 1)(x - 1)
The factors are: (x - 7) (2x + 1) (x - 1) (x + 4i) (x - 4i)
The first 3 are real roots and the last 2 are complex roots
The zeros of a polynomial function are the factors of the function.
The number of real zeros of f(x) is 3
The function is given as:
Two of the factors are given as:
x - 7 ad x + 4i
The factor x + 4i is a complex factor.
If a polynomial function has a complex factor, then the conjugate of the complex factor is also a factor of the polynomial.
This means that f(x) has 2 complex factors
The degree of the polynomial is 5.
So, the number (r) of real zeros is the difference between the degree of the polynomial and the number of complex factors.
This gives
Hence, the number of real zeros of f(x) is 3
Read more about zeros of polynomials at:
Answers