KEPLER'S THREE LAWS:a) elliptical orbits:the sun is one focus of the ellpise;b)law of areas; a line between the usn and planet will voer equal areas during any equal orbit time;c) period-distance relationship; the time required for each planet to orbit the sun increases not quite as quickly as its average distance from the sun.
The second law of motion is an equation, F=ma.
F = Force
m= mass
a = acceleration
This means the equation means the force required to move an object is equivalent to the mass of the object x how fast you want to move it.
We all subconsciously know this law, as we know the heavier the object the more force is required to move it. Also, more force is required to move it faster.
"The relationship between an object's mass m, its acceleration a, and the applied force F is F = ma. Acceleration and force are vectors (as indicated by their symbols being displayed in slant bold font); in this law the direction of the force vector is the same as the direction of the acceleration vector."
A simplified version:
"The applied force on an object is equal to its mass multiplied by it's acceleration (F=m*a). The acceleration and force are vectors. These two vectors go in the same direction."
In modern English rather that renaissance Polish, "The radius vector of the planet's orbit
(the line from the sun to the planet) sweeps over equal areas in equal time periods."
One thing this implies is that the closer the planet is to the sun in its orbit, the faster
it moves in its orbit.
first law of circular motion-
1) law of orbits
2)law of areas
3)law of periods
This law states that planets move faster when they are closer to the Sun. Specifically, the line that connects the Sun and a planet covers equal areas in equal times.
it would be helpful if u send the law with it because i don't happen to know them in order
Newton's Second Law states that an applied force, , on an object equals the rate of change of its momentum, , with time.
A line segment joining a planet and the Sun sweeps out equal areas during equal intervals of time.
It is the third law
Kepler's second law the law of equal areas.
forward and circular
The motion would be circular characteristic of the centripital forces applied to the ball.
The planets follow Kepler's law of planetary motion which says they travel in ellipses. A circle is a special case of an ellipse with eccentricity equal to zero. Some planets have elliptical orbits with very low eccentricity, so their orbits are almost circular.
This is known as Keplers 2nd Law of Planetary Motion. It states that line drawn between a planet and the sun sweeps out equal areas during equal time intervals.
For circular movement, you need a force that pulls an object towards the center of the motion. This is a consequence of Newton's Second Law, since circular movement implies acceleration towards the center.
Circular Motion -a motion along a circular path or the motion of an object in a circular Example -blades of a ceiling fan when the fan is switched on. or The motion of body along the circular path is called circular motion
It is the third law
Known for his eponymous laws of planetary motion.
Circular Motion
It is not. However, the projection of circular motion on a line is.
Circular Motion
False. A contra example; Triton has a circular motion about Neptune Newton's first law of motion: a body remains a rest or in uniform motion in a straight line unless acted upon by a force. If there is a centripetal force towards a point acting on a body that is moving then that body will have circular motion. The body and point do not have to be on earth.
Mindboggling? They are "Laws of Planetary Motion". So I guess the answer is "motion".
if an object moves along a circular path, the only change in its velocity is due to the change in the direction of the motion. The motion of the object moving along the circular path is, which is a uniform circular motion, is therefore an accelerated motion:):):):/
if an object moves along a circular path, the only change in its velocity is due to the change in the direction of the motion. The motion of the object moving along the circular path is, which is a uniform circular motion, is therefore an accelerated motion:):):):/