Newton*s 3 Laws of Motion

... object in motion are balanced (the net force is zero), the object will continue moving in a straight line at a constant speed. ...

1.1 - Newtonian Gravitation and Orbits - K

... planet there is a force of attraction between the object and the planet. The orbital velocity however, keeps the object from falling into the planet. Both of these components, the orbital velocity and the gravitational force, are necessary for an object to orbit something. ...

Newton`s First Law of Motion

File - Miss Hinze`s Class

... Example: You are pushing a shopping cart at the grocery store. At the beginning of your shopping trip, you exert a small force on the cart to accelerate it. (smaller mass = greater acceleration) ...

Newton*s Second Law

Newton`s Laws of Motion

... If an object weighs 1100 N but has a mass of 125 kg, which planet is it on? 1. Venus, g = 8.8 m/s2 2. Mars, g = 3.7 m/s2 3. Jupiter, g = 24.8 m/s2 ...

Newtons Laws

Chapter 12

Announcements

... l  But, time also passes more slowly for objects in gravitational fields l  Suppose I do an experiment where I take two atomic clocks (incredibly precise), synchronize them and keep one of the ground while the other flies in a commerical jet around the world l  Do the clocks agree when they’re br ...

Newton`s 2nd Law – Note Sheet

... ________________ of an object and set it equal to the ___________________. This makes Newton’s 2nd Law read as: ___________ = ____ ____ Before we continue any further, let’s see what we can tell about an objects motion just from this equation. First of all, we will assume that the mass of the object ...

Generalized Linear Acceleration and Linear Velocity for a Particle of

Newton`s Laws PPT

... due to its’ mass. d. BOTH B and C While riding the bus to school this morning your bus driver took a sharp left hand turn. Which direction will your body go? a. Toward the left b. Toward the right c. Toward the back d. Toward the front Which of Newton’s 3 laws best explains your reasoning for ...

The Science of Motion

... Leaning Tower of Pisa, one 10x heavier than the other. What would Aristotle have predicted?  The two balls hit at the same time!! ...

Newton`s Second Law I

Sheet 7

Newtons 2nd Law Ws

... Newton’s First Law Newton’s First Law Lab Newton’s First Law Lab #2 Newton’s Second Law Newton’s First Law Writing Newton’s Second Law Lab Newtons Second Law Ws ...

Motion Due to Gravity W g

Motion due to gravity

lecture5

... Conservation of Angular Momentum during star formation ...

CH 4.1 * 4.2 - Seymour ISD

... Newton’s 2nd Law and a Car’s Motion  In performance testing, a 1250-kg car accelerates from 0 to 100 km/hr in 8.2 seconds. What is the average net force pushing the car during the test? ...

Mechanics 105 chapter 4

... Intuitive concept of force Contact and field forces Most of the forces we experience are due to gravitational or electromagnetic Vector nature of forces – acceleration will be in same direction as net force Notation: F12 is the force exerted by object 1 on object 2 ...

Chapter 12

... • Without air resistance, all objects falling near Earth’s surface accelerate at the same rate regardless of their mass • Due to the Law of Gravitation • Air resistance can balance weight – EXAMPLE : Leaf falling at constant ...

Chapter 8 Section 3 Notes

Chapter 12 - Forces - Riverdale High School

Newton`s 2 nd Law

... can act on an object. 3. State the equation that makes up Newton’s 2nd law of motion. 4. Describe the relationship between force and acceleration. 5. Describe the relationship between mass and acceleration. 6. Describe Newton’s 3rd law of motion. ...

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Modified Newtonian dynamics

In physics, modified Newtonian dynamics (MOND) is a theory that proposes a modification of Newton's laws to account for observed properties of galaxies. Created in 1983 by Israeli physicist Mordehai Milgrom, the theory's original motivation was to explain the fact that the velocities of stars in galaxies were observed to be larger than expected based on Newtonian mechanics. Milgrom noted that this discrepancy could be resolved if the gravitational force experienced by a star in the outer regions of a galaxy was proportional to the square of its centripetal acceleration (as opposed to the centripetal acceleration itself, as in Newton's Second Law), or alternatively if gravitational force came to vary inversely with radius (as opposed to the inverse square of the radius, as in Newton's Law of Gravity). In MOND, violation of Newton's Laws occurs at extremely small accelerations, characteristic of galaxies yet far below anything typically encountered in the Solar System or on Earth.MOND is an example of a class of theories known as modified gravity, and is an alternative to the hypothesis that the dynamics of galaxies are determined by massive, invisible dark matter halos. Since Milgrom's original proposal, MOND has successfully predicted a variety of galactic phenomena that are difficult to understand from a dark matter perspective. However, MOND and its generalisations do not adequately account for observed properties of galaxy clusters, and no satisfactory cosmological model has been constructed from the theory.

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Modified Newtonian dynamics