If we take this simply, we can manage it. Let's take it one law at a time. First, inertia. Bodies at rest tend to remain at rest and bodies in motion tend to remain in motion. And both of those are in effect unless the body is acted upon by an outside force. For the glider, it is going to need to have some force applied for it to start flying (gliding). It will also be subject to some pretty complex forces when flying. Gravity is pulling down, and aerodynamics is supplying lift and the shape of the thing will engender drag (or "friction moving through the air" if you like). When air moves in a nonuniform way around the glider or when the control surfaces are used, things happen. There is a lot of stuff going on that has to do with inertia in a flying glider. It's inertial moment changes every microsecond (or less) as it is flying and interacting with the air. The second law of motion, that a change in motion is proportional to the force acting on a body, is tied to the first one. It takes a certain amount of force to get the mass of the glider moving to make it start to fly (or glide). The amount of force is proportional to the mass of the glider, and the more massive the glider, the more force is required to get it going. Same with changes in flight. The more massive the glider, the more force the control surfaces will have to effect to change the course of the thing. And smaller irregularities in air flow will have little affect on a more massive glider while they will affect a small, light glider more noticeably. Lastly, for every action there is an equal and opposite reaction. When a glider is in flight, any movement of the glider will move some volume of air in a given direction with a given amount of force to cause the glider to stay aloft or to change direction. When the glider pushes on air to maneuver, the air will "push back" on the glider and/or its control surfaces. Certainly it is pushing up on the underside of the wing to give the glider lift, and the air is being pushed down with equal force. Newton's laws of motion can be reviewed by using the link to the article on them posted by our friends at Wikipedia, where knowledge is free.
Newton's three laws of motion are fundamental principles in physics that describe the relationship between an object and the forces acting upon it. The consequences of these laws include the ability to predict and calculate the motion of objects, explain the behavior of objects in various situations, and derive important concepts such as momentum and energy conservation. These laws are widely used in fields like engineering, mechanics, and physics to understand and analyze the motion of objects in the universe.
Isaac Newton was an English mathematician, physicist, and astronomer who is widely recognized for his contributions to the development of classical physics and his formulation of the laws of motion and universal gravitation. He is considered one of the most influential scientists in history.
3 laws' of planetary motion
Sir Isaac Newton is well-known for his 3 laws of motion. These laws describe the relationship between a body and the forces acting on it, forming the foundation for classical mechanics.
his book Mathematical Principles of Natural philosophy was published in 1687
One common theme in Sir Isaac Newton's laws of motion is the concept of inertia, which states that an object at rest stays at rest and an object in motion stays in motion unless acted upon by an external force. Another common theme is the relationship between force, mass, and acceleration, as described by the equation F=ma. Ultimately, the laws of motion provide a framework for understanding the behavior of objects in response to external forces.
that movie leathal weapon
All 3 of them (Kepler's laws of planetary motion).
All 3 of them (Kepler's laws of planetary motion).
Well he fundamentally proposed a few theories. But he is eminently known for introducing the 'Mathematical Principles of Natural Philosophy'. These principles include Newtons 3 laws of motion and his Gravitational Constant. If you want to know what they are, google, Newtons 3 laws. He was quite smart!
Newton's three laws of motion describe how forces affect motion. They have nothing to do with gravity, except that gravity is one of many possible causes of force.
Well he fundamentally proposed a few theories. But he is eminently known for introducing the 'Mathematical Principles of Natural Philosophy'. These principles include Newtons 3 laws of motion and his Gravitational Constant. If you want to know what they are, Google, Newtons 3 laws. He was quite smart!
Isaac Newton was an English mathematician, physicist, and astronomer who is widely recognized for his contributions to the development of classical physics and his formulation of the laws of motion and universal gravitation. He is considered one of the most influential scientists in history.
Newton's contributions are many including, the1. 3 Laws of motion, 2. the Principia, 3. the Law of Gravity, 4. the Calculus and 5. the Reflective Telescope
Isaac Newton is famous for his 3 Laws of Motion.
Newton's Laws of Motion: 1. A body at rest tends to remain at rest. 2. A body in motion tends to remain in motion with a uniform velocity unless acted on by some outside force. 3. For ever action, there is an equal but opposite reaction.
Newton's three laws of motion are: 1) An object in motion stays in motion, and an object at rest stays at rest, unless acted upon by an external force. 2) The force acting on an object is equal to the mass of the object multiplied by its acceleration. 3) For every action, there is an equal and opposite reaction.
3 laws' of planetary motion