Kepler’s second law describes the speed of a planet traveling in an elliptical orbit around the Sun. According to this law, the planet’s orbital radius and angular velocity will vary, but the angular momentum will be conserved. The planet’s speed increases as it approaches the Sun and decreases as it recedes. It is for this reason that Kepler’s second law is important. This law is also known as the Law of Equal Areas.
Equation
Then, the area dA swept by the planet is dA/dt represents the rate of change of velocity with time. Hence, it is the areal velocity. Therefore, The angular momentum is given by Therefore, The rate of sweeping out an area on a planet’s orbit equals one-half the angular momentum divided by the mass. Since the only force present in the planet-Sun system is the radial gravitational force, angular momentum must be conserved. The term L/2m is a constant, so dA/dt is also a constant. Thus, Kepler’s second law arises due to the conservation of angular momentum.
