Respuesta :
Answer:
The time taken by [tex]3.55\times 10^9\ J[/tex] to arrive on an area of [tex]4.25\ m^2[/tex] is [tex]6.14\times 10^5\ seconds[/tex].
Explanation:
Given the intensity of the energy is [tex]1.36\ kW/m^2[/tex]
And the arriving energy is [tex]3.55\times 10^9\ J[/tex]
Also, the area in which energy is being arriving is [tex]4.25\ m^2[/tex]
Now, we will use relation between energy [tex](E)[/tex], intensity of energy [tex](p)[/tex], area [tex](A)[/tex] and time [tex](T)[/tex].
Where energy is in Joule, intensity is in [tex]kW/m^2[/tex], area is in [tex]m^2[/tex] and time is in seconds.
The equation is
[tex]E=pAT\\\\T=\frac{E}{pA}\\\\T=\frac{3.55\times 10^9}{1.36\times 10^3\times 4.25}\\\\T=0.614\times 10^6\ s\\T=6.14\times 10^5\ seconds[/tex]
So, the time taken by [tex]3.55\times 10^9\ J[/tex] to arrive on an area of [tex]4.25\ m^2[/tex] is [tex]6.14\times 10^5\ seconds[/tex].
