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TEKS 5 - Pearson School
TEKS 5 - Pearson School

... Aristotle The ancient Greek scientist and philosopher Aristotle (384 B.C.E.–322 B.C.E.) made many scientific discoveries through careful observation and logical reasoning. He was not always correct. Aristotle incorrectly proposed that force is required to keep an object moving at constant speed. Thi ...
Lecture-04-09
Lecture-04-09

Newton`s Second Law of Motion
Newton`s Second Law of Motion

Chapter 4
Chapter 4

... • Mutual force of attraction between any two objects • Expressed by Newton’s Law of Universal Gravitation: – Every particle in the Universe attracts every other particle with a force that is directly proportional to the product of the masses of the particles and inversely proportional to the square ...
Intro to Physics - Fort Thomas Independent Schools
Intro to Physics - Fort Thomas Independent Schools

7. conservation of momentum - essie-uf
7. conservation of momentum - essie-uf

Types of Forces
Types of Forces

... Mass VS Weight Mass The mass of an object refers to the amount of matter that is contained by the object Mass is related to how much stuff is there The mass of an object (measured in kg) will be the same no matter where in the universe that object is located Mass is never altered by location, the p ...
Chapter 10: Energy, Work and Simple Machines
Chapter 10: Energy, Work and Simple Machines

... equals the change in gravitational potential energy. 5.Define and calculate power from calculating the amount of work done by an object. ...
Chapter 4 notes
Chapter 4 notes

... Finding her car stuck in the mud, a bright physics student ties a strong rope to the back bumper of the car and the other end to a tree. She pushes the midpoint of the rope with her maximum effort which she estimates to be Fp=300N. The car just begins to budge with the rope at an angle θ which she ...
Chapter 6 - TeacherWeb
Chapter 6 - TeacherWeb

... Free fall: An object is in free fall only if _________________ gravity is the only force vacuum acting on it. This can only occur in a _________________ (where there is no air resistance). Orbiting: An object is orbiting when it is traveling in a _______________ circular path around another object. ...
ExamView - Untitled.tst
ExamView - Untitled.tst

Chapter 5 - TTU Physics
Chapter 5 - TTU Physics

... In Newton’s Laws, the mass is the inertial mass and measures the resistance to a change in the object’s motion In the gravitational force, the mass is determining the gravitational attraction between the object and the Earth Experiments show that gravitational mass and inertial mass have the same va ...
Chapter 5 PPT
Chapter 5 PPT

Exercises - PHYSICS​Mr. Bartholomew
Exercises - PHYSICS​Mr. Bartholomew

Homework 9 - Physics | Oregon State University
Homework 9 - Physics | Oregon State University

Chapter 4 2D Kinematics
Chapter 4 2D Kinematics

Calculating Net Force with the Second Law
Calculating Net Force with the Second Law

Vocabulary Cards
Vocabulary Cards

... to resist any change in its motion. If motionless, it tends to remain at rest; if moving, it tends to keep moving at the same speed and in the same direction. ...
Jeopardy
Jeopardy

... In free fall is the force of gravity balanced out by another force? ...
AP Physics C - Circular Motion
AP Physics C - Circular Motion

Circular Motion PPT
Circular Motion PPT

... TOWARDS the CENTER. To find the MAGNITUDES of each we have: ...
Exam 2
Exam 2

... a. there are no forces acting on the object. b. the net force acting on the object is zero. c. the object is accelerating. d. the object is losing mass. 8. A 7.0-kg bowling ball experiences a net force of 5.0 N. What will be its acceleration? ...
Circular Motion
Circular Motion

What is force? - cashmerephysics
What is force? - cashmerephysics

Review PowerPoint
Review PowerPoint

... A 20-N force due north and a 20-N force due east act concurrently on an object. The additional force necessary to bring the object into a state of equilibrium is (A) 20 N, northeast (B) 20 N, southwest (C) 28 N, southwest (D) 28 N, northeast ...
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Gravity

Gravity or gravitation is a natural phenomenon by which all things with mass are brought towards (or 'gravitate' towards) one another including stars, planets, galaxies and even light and sub-atomic particles. Gravity is responsible for the complexity in the universe, by creating spheres of hydrogen, igniting them under pressure to form stars and grouping them into galaxies. Without gravity, the universe would be an uncomplicated one, existing without thermal energy and composed only of equally spaced particles. On Earth, gravity gives weight to physical objects and causes the tides. Gravity has an infinite range, and it cannot be absorbed, transformed, or shielded against.Gravity is most accurately described by the general theory of relativity (proposed by Albert Einstein in 1915) which describes gravity, not as a force, but as a consequence of the curvature of spacetime caused by the uneven distribution of mass/energy; and resulting in time dilation, where time lapses more slowly in strong gravitation. However, for most applications, gravity is well approximated by Newton's law of universal gravitation, which postulates that gravity is a force where two bodies of mass are directly drawn (or 'attracted') to each other according to a mathematical relationship, where the attractive force is proportional to the product of their masses and inversely proportional to the square of the distance between them. This is considered to occur over an infinite range, such that all bodies (with mass) in the universe are drawn to each other no matter how far they are apart.Gravity is the weakest of the four fundamental interactions of nature. The gravitational attraction is approximately 10−38 times the strength of the strong force (i.e. gravity is 38 orders of magnitude weaker), 10−36 times the strength of the electromagnetic force, and 10−29 times the strength of the weak force. As a consequence, gravity has a negligible influence on the behavior of sub-atomic particles, and plays no role in determining the internal properties of everyday matter (but see quantum gravity). On the other hand, gravity is the dominant force at the macroscopic scale, that is the cause of the formation, shape, and trajectory (orbit) of astronomical bodies, including those of asteroids, comets, planets, stars, and galaxies. It is responsible for causing the Earth and the other planets to orbit the Sun; for causing the Moon to orbit the Earth; for the formation of tides; for natural convection, by which fluid flow occurs under the influence of a density gradient and gravity; for heating the interiors of forming stars and planets to very high temperatures; for solar system, galaxy, stellar formation and evolution; and for various other phenomena observed on Earth and throughout the universe.In pursuit of a theory of everything, the merging of general relativity and quantum mechanics (or quantum field theory) into a more general theory of quantum gravity has become an area of research.
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