The orbit of a planet is an ellipse with the sun at the centre.

The orbit of of planet is an ellipse with the Sun at one of the ____.

The orbit of a planet is an ellipse, line joining the planet and the sun sweeps equal areas in equal intervals of time F=(Gm_1m_2)/(r^2) , T^2 prop R^3

Answer the following questions : Observe the given figure showing the orbit of a planet moving around the sun and write the three laws related to it.

Fill in the blanks with appropriate words and write the completed sentences: According to Kepler's first law, the orbit of a planet is...... with the Sun at one of the......

Orbit of the earth around the sun is an ellipse with sun at one of its foci.if the semi major axis is 150 million km and e=1/60 , find the difference between maximum and minimum distance between the earth and the sun.

The figure shows the elliptical orbit of a planet about the sun S. An ellipse is the curve obtained when a cone is cut by an inclined plane. It has two focal points. The sum of the distances to the two focal points from every point on the curve is constant. F_1 " and " F_2 are the two focal points of the ellipse . The shaded area CF_1D is twice the shaded area AF_1B. t_1 is the time taken by the planet to move from C to D and t_2 is the time to move from A to B Which laws do we understand from the above diagram and description?

The kinetic energies of a planet in an elliptical orbit about the Sun, at positions A,B and C are K_(A),K_(B) and K_(C) respectively. AC is the major axis and SB is perpendicular to AC at the position of the sun as shown in the figure. Then

Kepler's first law : orbit of a planet is an ellipse : : _________ : T^2 prop r^3

The eccentricity of an ellipse with its centre at the origin is (1)/(2) . If one of the directrices is x = 4 , then the equation of ellipse is