Answer: On the Northern horizon
Explanation:
If the star is directly overhead when you stand at the North Pole, it will sink further and further the more you move south towards the equator due to the earth's curve. When you get to the equator, the star will ideally sit right on the northern horizon.
After one crosses the equator however, the star will disappear from view. It is therefore not possible to see this star from anywhere south of the Equator to the South Pole.
A prepared piano is a piano that has really good quality and is handmade
Answer:
The correct answer is Subarachnoid space.
Explanation:
The cranial meninges are the layers responsible for enveloping the brain and spinal cord. These layers are: dura mater, arachnoid mater, and pia mater.
Based on these layers there are also three cavities: epidural, subdural and subarachnoid.
The subarachnoid cavity it is located between the arachnoid and the pia, and there we find cerebrospinal fluid that exists between the arachnoid and the pia. This is also where the Cerebrospinal fluid continuously flows as well as the main arteries of the brain pass through this space.
When it is crossed by the main arteries, if a blood vessel breaks and bleeds between the hard meningeal mother and the arachnoid, the location of this bleeding would be in Subarachnoid space.
<span>
1 . when will the fare reach that height:</span>
<span>The ascending and descending time are equal but let's show
it: set the h = 0 </span>
<span>
1500t - 16t^2 = 0 => solve the quadratic </span>
<span>
t = 0 => reject </span>
<span>
t = 375/4 seconds => period to hit the ground, notice that this is twice the
time to reach max h. </span>
2. If the plane … solution:
<span>d = vt </span>
<span>
t = d/v </span>
<span>
= 50,000/880 </span>
<span>
It is approximately 56.8 sec to reach the flare but the flare reached max h at
375/8 ≈ 46.9 sec, so it won't hit the plane going up, but will it hit the plane
on its way down from 35,156.25 ft.</span>
