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Let's ramble around a bit and see if we can get to a place where the answer appears. Ready? Let's jump. Planets rotate about the sun in their orbits. Some of the orbits are pretty circular, and others are eliptical. You can picture these different orbits with the sun in the center and the planet moving around the sun in its circular or eliptical orbit. Got a picture? Good. Let's jump again. If we take a planet with a circular orbit and draw a line from the sun to where it is, that's a radius. If we look at the planet some time later and draw another line from the sun to the planet, we have another radius. The path the planet has traveled during the time we waited before drawing that second line is an arc. It's a portion of the planet's orbital path. In this case, that path is a circle (though no planet has a perfectly circular orbit). If we pick the right amount of time, the planet will have moved through 1/360th of its orbit around the sun. That's one degree of of its orbit or one degree of arc. The (amount of) arc subtends a one degree angle as regards the planet's orbit. That which subtends an angle is a line or path (in this case, it's an arc), that lies inside two lines drawn out from a central point that form that given angle. We spoke of the arc subtended by the angle, and we can apply this idea to an eliptical path of orbit as well as a circular one. It's a bit "weird" because the eliptical orbit makes for some odd "bits" of arc at different points along the curve of its circumference, but no biggie. We can visualize it. Oh, and we can talk about the area between the two lines that form that angle and the arc that subtends the angle. It is the area of an orbit subtended by the angle we created (regardless of its size). And check this out! Any planet moving in any kind of stable orbit (regardless of eccentricity) sweeps out equal subtended areas for the same amount of time through anypart of its orbit. Let's have a look at this just a bit more closely. In a circular orbit, the area swept out in a given subtended angle will be the same because the identical "slices of the pie" (refering to the circular shape of the orbit) will have the same area for the same angle. Also, in a circular orbit, a planet has a fairly constant speed along its path of travel. It will sweep out equal areas from anywhere in its orbit in the same amount of time. But in an eliptical orbit, the planet is moving more slowly when it is farther away from the sun. As it is farther away, the lines we draw to set up an angle (and a subtended arc) are longer. Yes, the lines are longer, but the planet is moving more slowly, and it will still sweep out an identical areain the same amount of time as it would closer it. For comets, the orbits are even more eccentric. But the same idea applies. Simple and easy. How about a nice drawing to illustrate the point? Wikipedia has a good article on Kepler's laws of planetary motion, and the drawing is found there. You'll need a link, and one is posted below. Surf on over and check it out.
What else can I help you with?
What is earth's path of revolution called?
Earth's path of revolution around the sun is called an orbit.
What is the definition of planetary year?
A planetary year is one orbit of a planet around the sun.
Are all planetary orbits ellipses?
Yes, according to Kepler's laws of planetary motion, all planetary orbits are elliptical in shape. This means that planets do not orbit the sun in a perfect circle, but instead follow an elliptical path with the sun at one of the foci of the ellipse.
What did Kepler realize about the orbit of Mars?
Johannes Kepler realized that the orbit of Mars is an ellipse with the Sun at one of the foci. This was one of his three laws of planetary motion, known as Kepler's First Law.
What is the difference between a planetary object and a moon?
A planetary object is a body that orbits a star (like a planet or a dwarf planet), whereas a moon is a natural satellite that orbits a planetary object. Moons are smaller bodies that orbit planets or dwarf planets.
What is the unit of the angle subtend by an arc are?
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If an arc subtend angle of 75 what is angle subtended by it on remaining part of circle?
360 - 75 = 285
How do you find the area of an arc for an example S has an arc in it how do you find the area of an s that has an arc?
A central angle can subtend (form) an arc of a circle. That has an area of 2 x pi x r x (angle A) / 360.
What kind of arc lies between the acute central angle?
An acute central angle will subtend an acute arc, or one that is less than 1/4 of the whole circle.
The measure of a major arc is greater than 180?
A circle subtends 360° . Therefore. if the angle subtended at the centre of a circle by an arc is greater than 180° then this is the major arc. By comparison, the minor arc will subtend an angle less than 180°
What is the special name given to the path which planets travel?
The name is orbit, planetary orbit
What is a segment of an orbit called?
arc
What did the planetary do?
it revolves around the sun like an orbit
What do you call the shape of the planetary orbit?
It is called an ellipse.
Who discovered the shape or the planetary orbit?
Johannes Kepler
What is the shape of a planetary path?
Planets orbit in an ellipse.
What causes planetary year?
A planetary year is the amount of time it takes a planet to orbit the Sun. A planetary year on Earth is 365.26 days.
