It has no solution bc there or no point and because its not the same line
Answer:
(4, 1)
Step-by-step explanation:
See attachment courtesy of Desmos.
M∠NQS = m∠BQS - m∠BQN = 78 - 48 = 30°
Answer:
Distance to the xy-plane = |z|
Distance to the yz-plane = |x|
Distance to the xz-plane = |y|
Step-by-step explanation:
The distance from P(x,y,z) to the xy-plane is by definition the magnitude of the vector that goes from the perpendicular projection of P over the xy-plane to the point P, which is exactly the magnitude of the vector (0,0,z) = |z| the absolute value of z
Similarly, the distance from P to the yz-plane is |x| and the distance from P to the xz-plane is |y|
Distance to the xy-plane = |z|
Distance to the yz-plane = |x|
Distance to the xz-plane = |y|
Answer:
100
Step-by-step explanation:
Multiply two of the side lengths
10×10 = 100
