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Hi,
Hi,
Yes!
And I thought the initial velocity given was redundant there.
I think the equation was given to obtain the value of 'a', to indirectly say that the ball is thrown on earth-like planet!
Since velocity is (displacement) / (time taken), we need to use differentiation, not integration.
Suppose we don't know differentiation too, then we need to obtain the answer by putting in actual numerics.
Then we can make out that the answer approaches 8.4 m/s.
Hi anonimnystefy,
Hi ShivamS,
You're welcome.
Hi,
Hi,
Hi,
Hi,
Hi,
Hi bobbym,
Hi bobbym,
Hi,
Okay.
Glad to help you, you are welcome!
Hi,
Hi,
I remembered it wrong, I looked up the cylindrical coordinates again.
You missed the limits slightly.
I think I got the answer now:
Getting the bounds in 3D is tricky for me as well, can't imagine the shape precisely!
I am thinking transformation may not be necessary because if we write the integral:
the square root will be eliminated on integrating w.r.t z.
Okay, then I think the source of the question itself is missing some information.
I think it's doable without any transformation.
Hi,
May be bad for now, we all keep learning!
Hi ShivamS,
Next problem:
10 numbers (x_i) are chosen from U(0,1). What is the probability that
?
I assumed various bounds, but got neither of the answers.
And in 3 dimensions, you need to consider cylindrical or spherical coordinates for transformation. I did not understand what you did there.