Recall that the Bernoulli equation, which is derived under assumption of isentropic flow, represents a form of mechanical energy balance (i. e. a statement of energy conservation) and can be derived from either Navier-Stokes or from thermodynamics. Under the assumptions below, derive the Bernoulli equation using the First and Second Laws of thermodynamics and Gibbs equations. a. steady state flow
b. incompressible flow
c. No work
d. Adiabatic
e. Reversible process
f. Δz = 0

Discuss the main difference using the two methods to derive the Bernoulli equation in terms of what additional assumptions are required.

i mean i gues

explanation:

answer:

wth

explanation:

answer:

// here is code in C++.

#include <bits/stdc++.h>

using namespace std;

//main function

int main()

{

  // variable

 int n;

 cout<<"enter a number:";

 // read the input

 cin>>n;

 // find the square root of the absolute value

 float square_root=sqrt(abs(n));

 // print the square_root

 cout<<"square root of "<<n<<" is: "<<square_root<<endl;

  return 0;

}

Explanation:

Read a number from user and assign it to "n".Then find its absolute value with abs() function.Then calculate the square root of the absolute value with sqrt() function.Print the square root of the number.

Output:

enter a number:-17

square root of -17 is: 4.12311

                                                         This is easy

                                                     sinserly Natalie 7 grader (this is not that hard)