Answer:
NO
Step-by-step explanation:
Note :
Consider a triangle with sides‘s length a , b and c
triangle inequalities state that we must have c - a < b < c + a
now , is the third side always the longest ?
the answer is NO: (let’s take a counter example )
in a triangle with 2 sides‘s length 3 , 4
the third side could measure 2
because 4-3 < 2 < 4+3
You multiply the denominator (bottom number) by the whole number and add the numerator (top number) to it so you get 53/8
You must use the slope formula to find out what the slope is between the lines. The slope formula is: (y2 - y1)/(x2 - x1). Plug in the points to get your answer.
You have the points (-3, -2) and (-3, 6). The x-coordinates are -3 and -3 while the y-coordinates are -2 and 6.
(6 - (-2)/(-3 - (-3))
8/0
You cannot divide by zero, so the slope is undefined. This means the line that the points both fall on is a vertical line and is unable to have a slope.
Answer:
Given that:
Take LCM of x+y and x-y is,
then;
Using the identities rule:
Combine like terms;
Therefore, the answer is,
When x = 0, the value of f(x) is 2. You can see why below
f(x) = (2^x) + 1
f(0) = (2^0) + 1
f(0) = 1+1
f(0) = 2
So the point (0,2) is on the curve. This is visually shown as the y intercept (the location where the curve crosses the y axis)
When x = 2, the value of f(x) is 5
f(x) = (2^x) + 1
f(2) = (2^2) + 1
f(2) = (4) + 1
f(2) = 5
So (2,5) is another point on this curve
Find the slope of the line through these two points
m = (y2 - y1)/(x2 - x1)
m = (f(2) - f(0))/(2 - 0)
m = (5 - 2)/(2 - 0)
m = 3/2
m = 1.5
The slope as a fraction is 3/2
The slope as a decimal is 1.5
So the rate of change is 1.5