Answer:
potential energy decrease and kinetic energy increases.
Explanation:
the law of conservation of energy says that the total energy of a system is conserved, then:
[tex]E_ki +E_pi = E_kf+E_pf[/tex]
where [tex]E_{ki}[/tex] is the initial kinetic energy, [tex]E_{pi}[/tex] is the initial potential energy, [tex]E_{kf}[/tex] is the final kinetic energy and [tex]E_{pf}[/tex] is the final potential energy.
so, when the acorn fall the final potential energy is going to decrease because the potential energy is equal to:
[tex]E_p = mgh[/tex]
Where m is the mass, g the gravity and h the height.
Therefore, in order to fullfil with the law of conservation of energy is necesary that the final kinetic energy increase.
Now, we know that the kinetic energy is equal to:
[tex]E_k = \frac{1}{2}mv^2[/tex]
where v is the velocity, so, it means that the velocity of the acorn is going to increase.
As the acorn falls, the final potential energy is going to decrease and the final kinetic energy increases.
Question Parameter(s):
Suppose an acorn with a mass of 3.17 g falls off a tree.
the acorn has a kinetic energy of 0.259 J
and potential energy of 0.207 J
Generally, the equation for the law of conservation of energy is mathematically given as
Eki +Epi = Ekf+Epf
Therefore,the potential energy is
Ep = mgh
m = mass,
g = gravity
h= height.
and
E_k = 0.5mv^2
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