Answer:
A
Step-by-step explanation:
you can just plug in the numbers until they come out equal
Answer:
0, 1, 2
Step-by-step explanation:
Euclid's division Lemma states that for any two positive integers ‘a’ and ‘b’ there exist two unique whole numbers ‘q’ and ‘r’ such that , a = bq + r, where 0≤ r < b.
Here, a= Dividend, b= Divisor, q= quotient and r = Remainder.
According to Euclid's division lemma a 3q+r, where 0≤r≤3 and r is an integer.
Therefore, the values of r can be 0, 1 or 2.
Interesting question.
It will describe a multi step proof if the givens have to be restated.
It does depend on theorems and postulates or could.
Geometric statements require that they logically fall into the pattern needed for a proof. This statement is also true.
But the best answer is D. If you provide 1 counterexample, you don't need to go any further. <<<<< Answer.
Two shapes.. a circle and a rectangle. The width of the rectangle serves as the diameter of the circle.
Length = 140 m ; Width = 68 m
Circumference of a circle = 2 π r
circumference of a cirlce = 2 * 3.14 * (68m/2) = 2 * 3.14 * 34 m = 213.52
length = 2 * 140 m = 280 m
perimeter of the oval = 213.52 m + 280 m = 493.52 m
The given point is (0,-12).
It is required to tell whether the point is an x-intercept or a y-intercept.
Recall that the first coordinate of a coordinate point represents the x-coordinate, while the second coordinate represents the y-coordinate.
The x-intercept is the point where the y-coordinate is zero.
The y-intercept is the point where the x-coordinate is zero.
Notice that the given point has an x-coordinate of zero; this means that the given point is a y-intercept.
The point is a y-intercept.