South Pasadena · AP Chemistry

... 46. When a balloon filled with air is released through the air, it will fly all over the place. If the action force is the rubber balloon pushing on the molecules of air in the balloon, then the reaction force is . . . a) The air molecules outside the balloon pushing back on the rubber balloon. b) ...

Class Notes

... Summary (continued) Lubrication is used to reduce friction between moving objects in contact. Weight is a force caused by the attraction between an object and the earth. Weight is calculated by multiplying mass by the earth’s acceleration (10m/s2). The extension in an elastic or spring increases wi ...

Forces Test Review - Mr. Kleckner`s Class

Midway High School Science TAKS Review

... slides across frictionless ice (you can buy this at Sam’s if you know where to look). What are the horizontal forces acting on the puck? And the answer is . ...

Centrifugal *force*: The fake force

... Definition of force • A force is a push or pull upon an object resulting from one object’s interaction with another object. • So…where’s the push or pull? Where’s the interaction? Is it towards the center or towards the edge? ...

Newton`s Second Law File

Force

... An object will remain at rest or move in a straight line unless it is acted on by a force. Force - a push or a pull = Newton (N) 1 Newton = 1 kg x m/s2 Gives ENERGY to an object Contact force - involves objects touching each other Long range forces - include gravity, magnetism, & electricity Inertia ...

The Force Be With You

... • What forces cause: – An object to start moving – An object to stop moving – Speed up or slow down an object ...

Forces and Motion Lab Results Example

... same air resistance, the book has a much greater mass than the paper so the force due to gravity pulling the book down is much greater than that pulling the paper down. c. The two items fall at, essentially, the same rate. d. Putting the book below the paper creates an artificial vacuum in which the ...

Name - cloudfront.net

... A push or pull that causes an object to move, stop, or change direction the amount of matter in an object object’s speed in a particular direction the unit used for force A change in motion caused by unbalanced forces or a change in velocity the forces acting on an object that are equal in size and ...

Chapter 2: Two Dimensional Motion

... Note that factor label of the units gives N/kg, but that is equivalent to m/s/s since F=ma and the units are F (in N) = m (in kg) a (in m/s/s). Now, using the formula for critical velocity: (Consider that g is the centripetal acceleration, and the formula becomes apparent. While normally we don't co ...

6.3 Apparent forces in circular motion

... to keep moving straight by inertia (Newton’s First Law). The result is that the object runs into the body. To the body, it feels that there is an outward force acting, but this force, called Centrifugal force, does not exist. If an open container of water is swung fast enough in a circle the water w ...

Wednesday, Jan. 30, 2002

... 1. When no force is exerted on an object, the acceleration of the object is 0. 2. Any isolated object, the object that do not interact with its surrounding, is either at rest or moving at a constant velocity. 3. Objects would like to keep its current state of motion, as long as there is no force tha ...

Chapter 3 Forces and Motion

... How to identify the forces acting on an object How a resultant force changes the motion of an object The difference between mass and weight How a resultant force can give rise to motion in a circle The effect of air resistance on a moving object How force, mass and acceleration are related How a for ...

Exercises - PHYSICSMr. Bartholomew

... b. The forces acting on an object at rest are unbalanced. c. A net force acting on an object causes acceleration. d. Force is not required for an object to accelerate. 6. Two shopping carts of equal mass are pushed by two different people. One cart accelerates three times as fast as the other cart. ...

PowerPoint version

PHY231 Review

... a) The frictional force is reduced to one-fourth of its previous value. b) The frictional force is the same as its previous value. c) The frictional force is reduced to one-half of its previous value. d) The frictional force is increased to twice its previous value. e) The frictional force is increa ...

Document

... On the Scantron sheet, 1) Fill in your name 2) Fill in your student ID # (not your social security #) 3) Fill in your section # (under ABC ofspecial codes) ...

newtons-laws-and-applications

15.2 Forces study guide KEY

... The combination of all the forces acting on an object, the TOTAL force on an object. Balanced Forces (what they are and what effect they have on an object’s motion) When all the forces on an object cancel each other out. Balanced forces do NOT cause a change in motion. If an object was still- it sta ...

template

... *Ffloor man (Fn) no longer present Fn < Fg because of man is speeding up in negative direction. ...

Net Force

Rotational Motion and Gravity

... against the wall in a vertical position. What minimum coefficient of friction between a rider’s clothing and the wall is needed to keep the rider from slipping? ...

OWL Ch02 Review Game

... The relationship among force, mass, and acceleration is stated in ____. a. the law of conservation of momentum b. Newton's first law of motion c. Newton's second law of motion d. Newton's third law of motion ...

Physical Science Worksheet: Chapters 10 and 11

... A) time. B) distance. C) Both (a) and (b) D) None of the above 26. A car is parked on a hill. In order to keep the car from rolling downhill, how great must the static friction acting on the car be? A) equal to the force pulling the car downhill B) greater than the force pulling the car downhill C) ...

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G-force

g-force (with g from gravitational) is a measurement of the type of acceleration that causes weight. Despite the name, it is incorrect to consider g-force a fundamental force, as ""g-force"" (lower case character) is a type of acceleration that can be measured with an accelerometer. Since g-force accelerations indirectly produce weight, any g-force can be described as a ""weight per unit mass"" (see the synonym specific weight). When the g-force acceleration is produced by the surface of one object being pushed by the surface of another object, the reaction-force to this push produces an equal and opposite weight for every unit of an object's mass. The types of forces involved are transmitted through objects by interior mechanical stresses. The g-force acceleration (save for certain electromagnetic force influences) is the cause of an object's acceleration in relation to free-fall.The g-force acceleration experienced by an object is due to the vector sum of all non-gravitational and non-electromagnetic forces acting on an object's freedom to move. In practice, as noted, these are surface-contact forces between objects. Such forces cause stresses and strains on objects, since they must be transmitted from an object surface. Because of these strains, large g-forces may be destructive.Gravitation acting alone does not produce a g-force, even though g-forces are expressed in multiples of the acceleration of a standard gravity. Thus, the standard gravitational acceleration at the Earth's surface produces g-force only indirectly, as a result of resistance to it by mechanical forces. These mechanical forces actually produce the g-force acceleration on a mass. For example, the 1 g force on an object sitting on the Earth's surface is caused by mechanical force exerted in the upward direction by the ground, keeping the object from going into free-fall. The upward contact-force from the ground ensures that an object at rest on the Earth's surface is accelerating relative to the free-fall condition (Free fall is the path that the object would follow when falling freely toward the Earth's center). Stress inside the object is ensured from the fact that the ground contact forces are transmitted only from the point of contact with the ground.Objects allowed to free-fall in an inertial trajectory under the influence of gravitation-only, feel no g-force acceleration, a condition known as zero-g (which means zero g-force). This is demonstrated by the ""zero-g"" conditions inside a freely falling elevator falling toward the Earth's center (in vacuum), or (to good approximation) conditions inside a spacecraft in Earth orbit. These are examples of coordinate acceleration (a change in velocity) without a sensation of weight. The experience of no g-force (zero-g), however it is produced, is synonymous with weightlessness.In the absence of gravitational fields, or in directions at right angles to them, proper and coordinate accelerations are the same, and any coordinate acceleration must be produced by a corresponding g-force acceleration. An example here is a rocket in free space, in which simple changes in velocity are produced by the engines, and produce g-forces on the rocket and passengers.

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G-force