Answer: If you meant: 
<h3>Then, let's change the square t :o read:
![\sqrt[x]{1/2}](https://tex.z-dn.net/?f=%5Csqrt%5Bx%5D%7B1%2F2%7D)
</h3><h3>Now, we can just multiply the two powers, and your answer is
</h3><h3>Hope this helps have a awesome day/night❤️✨</h3>
Answer:
I would divide 50 by 4 (Because there are usually 4 weather conditions in game) and whichever the number is closest to it would pick that weather condition
We are given here that a blackjack hand consists of:
1 of the 4 aces = 4 / 52
1 of the 16 cards worth 10 points (10, jack, queen, king)
= 16 / 52
So assuming that cards are dealt without replacement,
therefore the probability of getting a blackjack hand is:
<span>P = 1st is ace * 2nd is 10 pt card +
1st is 10 pt card * 2nd is ace</span>
P = (4 / 52) * (16 / 51) + (16 / 52) * (4 / 51)
P = 0.04827 = 4.83%
Therefore there is a 4.83% probability to get a blackjack
hand.
<span> </span>
Answer:
The correct option is C.
Step-by-step explanation:
The function has axis of symmetry at 
, it represents that the parabola is along the x-axis and the standard form of parabola is
Where, a is scale factor and (h,k) is vertex.
The maximum or minimum value of a quadratic function is the vertex of parabola. So, vertex of parabola is (6,4).
The y-intercept of the function is (0,-32)
Therefore required equation of parabola is
Therefore option C is correct.
Answer:
d. 50°
Step-by-step explanation:
Since you know one angle and its opposite side, use the law of sines.
sin 36°/11.9 = sin D/15.6
sin D = 15.6 × sin 36° / 11.9
sin D = =0.7705
D = sin^-1 0.7705
D = 50.4°
