Well let's remember csc = hypotenuse/opposite
Let's use the distance formula to find the length of the hypotenuse.
<span><span><span><span>√(0−−8)^</span>2</span>+<span><span>(−6−0)^</span>2
</span></span>√</span><span><span><span><span>(0+8)^</span>2</span>+<span><span>(−6+0)^</span>2
</span></span>√</span><span><span><span><span>(8)^</span>2</span>+<span><span>(−6)^</span>2
</span></span>√</span><span><span>64+36
</span>√</span><span>100
H = 10
so csc = 10/opposite
Now to find the opposite length using distance formula
</span>√(0−−8)^2+(0−0)^2
√(0+8)^2+(0+0)^2
√(8)^2+(0)^2
√64+0
√64
O = 8
So csc = 10/8 or 1.25
Answer:
A (the first table)
Step-by-step explanation:
A is a function because none of the x-values are paired with more than one y-value
Answer:
3
Step-by-step explanation:
Remember, the sides are labelled with lower case letters, and angles are labelled with CAPITAL letters. The angles are labelled with the CAPITAL letter that is opposite from the side with that letter.
so:
Angle A is opposite side a
Angle B is opposite side b
Angle C is opposite side c
Answer:
a) 0.5
Step-by-step explanation:
a)
Let T be the event that person uses trails daily and E be the event that person uses trails for exercise.
We have to find the probability that person uses the trails for exercise given that the person uses trails daily which can be denoted as P(E/T).
P(E/T)= P(E∩T)/P(T)
We are given that P(T)=0.24 and P(E∩T)=0.12. So,
P(E/T)= 0.12/0.24
P(E/T)= 0.5
Thus, the probability that person uses the trails for exercise given that the person uses trails daily is 50%
