In a parallel one-dimensional flow in the positive x direction, the velocity varies linearly from zero at y = 0 to 32 m/s at y =
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Answer:
Explanation:
If the question is: Determine the banking angle θ
We have the forces involved on the figure attached.
For this case we know that the weight is given by:
And for this case the centripetal acceleration would be given by:
If we analyze the sum of forces on x and y we have:
And if we solve for the force we got:
If we solve for the normal force we got:
In order to find the banking angle we use the fact that F =0
The velocity on this case is 120 mi/h if we convert this into ft/ s we got:
And then we have this:
Answer:
Condition to break:
Efficiency: O(n).
Explanation:
Previous concepts
Heap algorithm is used to create all the possible permutations with K possible objects. Was created by B. R Heap in 1963.
Parental dominance condition represent a condition that is satisfied when the parent element is greater than his children.
Solution to the problem
We assume that we have an array H of size n for the algorithm.
It's important on this case analyze the parental dominance condition in order to the algorithm can work and construc a heap.
For this case we can set a counter j =1,2,... [n/2] (We just check until n/2 since in order to create a heap we need to satisfy minimum n/2 possible comparisions
And we just need to check on the array the last condition and if is not satisfied for any value of the counter j we need to stop the algorithm and the array would not a heap. Otherwise if we satisfy the condition for each then we will have a heap.
On this case this algorithm needs to compare 2*(n/2) times the values and the efficiency is given by O(n).