Answer:
2.66x10^33 J
Explanation:
In order to do this, we first need to know the expression for kinetic energy:
E = 1/2 I*w² (1)
I is moment of innertia
w is angular speed.
Moment of Innertia can be calculated using the following expression:
I = 2/5 M*R² (2)
M is mass of earth, R is radius of earth
Replacing the data in expression (2) we have:
I = 2/5 * 5.97x10^24 * (6.37x10^6)²
I = 9.69x10^37 kg m²
Next, we need to calculate the angular speed of Earth over it's axis, this is easy, because we know the Earth rotates over it's own axis once a day, 24 hours (86400 s), and assuming Earth is a perfect sphere, we can calculate the speed:
w = 2π / 86400 = 7.27x10^-5 rad/s
next thing we need to do is calculate the rotational kinetic energy of earth on it's axis, using equation (1) so:
E = 1/2 * 9.69x10^37 * (7.27x10^-5)²
E = 2.56x10^29 J
Now that we have this value, we can finally calculate the rotational kinetic energy of earth about the sun. For that, we need to calculate again the angular speed of earth about the sun. The Earth rotates around the sun once a year, or 365 days, which is 3.1536x10^7 s, so the angular speed would be:
w = 2π/3.1536x10^7 = 1.99x10^-7 rad/s
finally the energy is the combination of the sun and earth so:
K = 1/2 (Ie + Me*Rorb²)wo²
I is innertia for earth
Me mass of earth
Rorb RAdius of orbit around the sun
wo is angular speed around the sun
Replacing the data we finally have:
K = 1/2 [9.69x10^37 + 5.97x10^24 * (1.5x10^11)²]*(1.99x10^-7)²
K = 2.66x10^33 J
