Answer:
You should expect 28 defected cars.
Step-by-step explanation:
your equation here is 8/360 = x/1260
so if this is the case then 8*1260= 10080
10080/360= 28
28 will have defects out of 1260
ground. To avoid making it too difficult to push a
motorcycle up the ramp, Jessie decides to make the
angle between the ramp and the ground 159. To the
nearest hundredth of a foot, find the length of the
ramp.
A. 10.82 feet
B. 2.90 feet
C. 0.72 feet
D. 10.45 feet
Answer:
A. 10.82
Step-by-step explanation:
When using trigonometry to solve for the length of a ramp given the height of the trailer and the angle of the ramp, we use the sine of the angle, defined as the ratio of opposite side to the hypotenuse. The length of the ramp, or hypotenuse, was found to be approximately 0.72 feet.
This question is about trigonometry, a branch of mathematics that deals with the relationships between the sides and angles of triangles. In this case, we are given the height of the trailer (2.8 feet) and the angle between the ramp and the ground (159 degrees).
We are asked to find the length of the ramp, which is the hypotenuse of the triangle formed by the ramp, the ground, and the trailer. This can be found by using the sine of the angle, defined as the ratio of the opposite side (the height of the trailer) to the hypotenuse (the ramp length).
Using the equation sin(159) = 2.8 / ramp-length and solving for ramp-length by multiplying both sides by ramp-length and then dividing by sin(159), we find that the length of the ramp is approximately 0.72 feet.
So, the correct answer is C. 0.72 feet.
#SPJ11
24x^2y^6-16x^6y^2 = 8y^4x^4 +4xy^2
8y^4x^4 +4xy^2 = 12y^6x^5 / 4xy^2
12y^6x^5 / 4xy^2 = 3y^4x^4 ... I think that is the answer! :)