Forces - SCHOOLinSITES

... always have a gravitational force between them. •When something is very large, like Earth, the force is easy to detect. ...

Physics Final - cloudfront.net

... 5. When velocity is negative and acceleration is negative, which of the following is true? A. Kinetic energy is decreasing. B. Object is speeding up. C. Net force is in a direction opposite of the acceleration. D. The acceleration cannot be constant. B 6. A baseball catcher throws a ball vertically ...

Chapter 2: Motion

... B. continue moving in a straight line if initially moving in a straight line. C. both A and B D. neither A nor B 8. According to Newton’s second law of motion, acceleration is proportional to force. That means a larger force A. produces a smaller acceleration. B. doesn’t affect acceleration. C. prod ...

Lecture 3 The Physics of Objects in Motion

... Falling Objects and Air Resistance • On Earth, air-resistance must be considered for falling objects. • As falling speed increases so does the opposing force of air-resistance. Net force (ΣF) = Weight – Air-resistance ...

Physics 512 - Scarsdale Schools

... 4. ______ At the moment shown in the diagram, the object’s velocity is towards point A B C D 5. ______ At the moment shown in the diagram, the force acting on the object is towards A B C D 6.______ If the string breaks at this moment, the object would travel towards point A B C D 7. ______ If the sp ...

- Fairview High School

Question: Are distance and time important when describing motion

... Gravity – any two masses that exert an attractive force on each other Gravity depends on mass & distance between objects Weight – gravitational force exerted on an object; measured in units called Newtons The greater the object mass, the stronger the gravitational force on it ...

Chapter 4 Homework

... Two blocks are in contact on a frictionless horizontal surface. The blocks are accelerated by a single horizontal force applied to one of them (Figure 4-52). Find the acceleration and the contact force of block 1 on block 2 (a) in terms of F, m1 and m2 and (b) for the specific values F = 3.2 N, m1 = ...

Chapter 3: Newton`s Laws of Motion End of Chapter Questions

Summary of Newton`s Laws

Newton`s 2nd Law Fill

... Remember that this discussion is only concerned with falling objects. This refers to an object that is dropped from some height and allowed to fall freely. As the object is released from your grip, the only downward force acting on it is __________________. The situation changes when the object is _ ...

Chapter 7

... angular velocity are in the same direction, the angular speed will increase with time If the angular acceleration and the angular velocity are in opposite directions, the angular speed will decrease with time ...

Chapter 5 Worksheets - School District of La Crosse

... 3. What is Newton’s third law of motion? 4. If a person exerts a large force on the wall, what does the wall do? 5. If the object isn’t moving the magnitudes are said to be _____________________. 6. What are the 2 forces often called? 7. When a person grabs a ball; the ball will: ...

Unit 6 Force and Motion Test Review

... c. An iguana has more trouble pushing a boulder than a pebble. ...

What is Newton`s Second Law of Motion? http://www.glencoe.com

... Force and Newton's Laws What is Newton's Second Law of Motion? Force is a push or pull on an object. Net force is the difference between two opposing forces. Newton's second law of motion states that if a net force acts on an object, the object will accelerate in the direction of the force. Accelera ...

Force and Acceleration Worksheet

... 6. Calculate the acceleration of a 300 000-kg jumbo jet just before takeoff when the thrust of each of its four engines is 30 000 N. ...

Physical Science Worksheet: Force Short Answer 1. The SI unit of

... 5. As the distance between two objects increases, the force of gravity ________. 6. As a football play begins, a lineman from one team pushes the opposing lineman backward. This is an example what kind of force? 7. What is the name of the friction that exists between two stationary objects? 8. What ...

Newton`s Third Law - The Physics Classroom

... Read from Lesson 4 of the Newton's Laws chapter at The Physics Classroom: http://www.physicsclassroom.com/Class/newtlaws/u2l4a.html ...

Regents Physics

... called a free body diagram, and identify the contact and long range forces ...

chapter02posta

... they hit the ground at the same instant. This had not been understood before and the reason Galileo got it right (after hundreds of years of philosophical speculation about it) is that he did very careful experiments. In fact his first ideas about how the objects would fall were wrong and he had to ...

? gal =

... velocity is 15 m/s to the east, what is its velocity after 10.0 s of the acceleration? The acceleration is 2.0 m/s2 to the east and this is applied for 10.0 s. Therefore the car has accelerated 2.0 m/s2 east H 10.0 s = 20.0 m/s east. If the initial velocity was 15 m/s to the east, the final velocity ...

Tutorial 01 (Chapter 01) 3. • The speed of light in a vacuum is

... strike the trunk of a tree, they can experience an acceleration ten times greater than the acceleration of gravity, or about 98.1 m/s2. What is this acceleration in ft/s2 ? 32. •• Suppose 1.0 cubic meter of oil is spilled into the ocean. Find the area of the resulting slick, assuming that it is one ...

B) component forces

... 5. A box is pulled along a level floor at constant speed by a rope that makes a 45 degree angle with the floor. The box weighs 100 N. The coefficient of sliding friction is 0.75. The force exerted on the rope is: A) 75 N, B) between 75 N and 100 N, C) 100 N, D) greater than 100 N. ...

Newton`s Third Law

... First, we know that mass m is falling and dragging mass M off the table. The force of kinetic friction opposes the motion of mass M. However, we know that friction is negligible here because it is a smooth surface! We also know, since both masses are connected by a nonstretching rope, that the two m ...

The Big Plot

... b. What acceleration will the object have if the net force is 50 N and the trend shown by the graph continues? Show your calculations and include units in your answer. c. On the grid in your Student Answer Booklet, draw a graph of force vs. acceleration if the mass of the object is halved and the ob ...

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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