Simple Harmonic Motion

... A slingshot consists of a light leather cup, containing a stone, that is pulled back against 2 rubber bands. It takes a force of 30 N to stretch the bands 1.0 cm (a) What is the potential energy stored in the bands when a 50.0 g stone is placed in the cup and pulled back 0.20 m from the equilibrium ...

m/s 2 - mrhsluniewskiscience

... • For a given mass, if Fnet doubles, triples, etc. in size, so does a. • For a given Fnet if m doubles, a is cut in half. • Fnet and a are vectors; m is a scalar. • Fnet and a always point in the same direction. • The 1st law is really a special case of the 2nd law (if net force is zero, so is accel ...

Physics-1 Recitation-7

IGCSE-13-Forces&Movement

... Calculate the acceleration that is produced by a force of 600N acting on a mass of 120kg. (a) What is weight? (b) Calculate the weight of a person of mass 90kg on the surface of (i) the Earth and (ii) the Moon. (a) Give two factors in each case that would increase the (i) braking distance (ii) think ...

Inquiry 14.1 Analyzing the Weight on Each Planet

... A. Does your mass stay the same regardless of if you are on Earth, Mars or the Moon? B. If you are on top of a mountain do you weigh more or less? Why do you think that? C. The more mass an object has the ______ gravitational force pulling on it than an object with less mass. D. In the metric system ...

8th Grade Science

The answer is B. Newton`s 2 nd Law states that acceleration is

Newton`s First Law of Motion

... between bodies with mass, the earth and moon for example. • Newton’s three laws of motion relate the forces acting on a body to its motion. The first is the law of inertia, it states that ‘every object in motion will stay in motion until acted upon by an outside force’. • The second is commonly stat ...

Circular Motion and Gravitation

... is not an interaction between 2 objects, and therefore not a real force. Nothing pulls an object away from the center of the circle. ...

PDF 621KB

... outer walls and bricks for the inner walls are piled on top of each other, without the use of any steel reinforcement bars or steel frame. In addition, the building stands on a thick, strong concrete slab, a foundation called "rubble concrete." ...

Forces

... • the unit for momentum is kilogram meters per ...

Newton 2nd Law

... hang over a pulley at the end of the airtrack and will pull a cart of mass (M) along the length of the airtrack. It can be shown from Newton's 2nd Law that the acceleration a is given by the equation: ...

Forces and Newton`s Laws

... the object is sliding or not. – If the object is sliding μ is slightly less – This is called sliding or kinetic friction – When friction holds an object at rest we call it static friction. ...

Newton`s Laws

... A heavier object is harder to move than a lighter object. “Seatbelts save lives.” When you push on a wall it pushes back with equal force. The Voyager spacecrafts, launched in the 1977, continue to travel deeper into space even though their jet engines ran out of fuel a long time ago. A rocket ship ...

F = 0 x = 0 F =

... you're interested in and they move up to the curve to see where the mass's position is. We can define a number of characteristics of simple harmonic motion. For example, the amplitude is the maximum displacement of the mass. The symbol for amplitude is xo. This is a distance, so the units should be ...

Newton`s Second Law

... You are pushing a friend on a sled. You push with a force of 40 newtons. Your friend and the sled together have a mass of 80kg. What is the acceleration of your friend on the sled? ...

chapter 4: dynamics: force and newton`s laws of motion

... Integrated Concepts An elevator filled with passengers has a mass of 1700 kg. (a) The elevator accelerates upward from rest at a rate of 1.20 m/s 2 for 1.50 s. Calculate the tension in the cable ...

A x

... force bringing bob back to eqlbm position = F = -mgsin  For small angles, sin   = s/L  x/L F = -mg  = -mgx/L, i.e. F  x Compare with F = -kx, means k  mg/L OR k/m = g/L . But k/m = 2 So 2 = g/L Since T = 2(m/k) = 2(L/g) Period of simple pendulum T = 2(L/g) ...

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Class #15 - Department of Physics | Oregon State University

... Any mass as large as a planet exerts a significant force on any other mass—such as you. If you let that be the net force—the only force acting on you (i.e. you step off a roof)—you know what happens: That net force causes you to accelerate. And we have measured the local magnitude of that accelerati ...

force - Cloudfront.net

... • Suppose you have filled a cardboard box with books and want to move it. • It’s too heavy to lift, so you start pushing on it, but it doesn’t ...

Physics-ATAR-Unit-2

Uniform Circular Motion Ideas

...  Something (a Force) must make an object move in a circle  The Force causing circular motion can be one of many different forces, depends on the situation (orbit = gravitational force, car turning a corner = frictional force between tires and the road, ball on a string = tension force) ...

Seismology: The hunt for plumes

... and 9V by about 1.7%. In the deep mantle, this effect is several times weaker. The minimum temperature anomalies proposed for plumes are about 200 K. ,QGLUHFW WKHUPDO HIIHFW – Temperature variations would also cause variation in the depths of SRO\PRUSKLFSKDVHERXQGDULHV in the WUDQVLWLRQ]RQH bet ...

Forces PPT - Effingham County Schools

... • Everything in the orbiting space shuttle is falling around Earth at the same rate, in the same way you and the scale were falling in the elevator. • Objects in the shuttle seem to be floating because they are all falling with the same acceleration. ...

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Seismometer

Seismometers are instruments that measure motion of the ground, including those of seismic waves generated by earthquakes, volcanic eruptions, and other seismic sources. Records of seismic waves allow seismologists to map the interior of the Earth, and locate and measure the size of these different sources.The word derives from the Greek σεισμός, seismós, a shaking or quake, from the verb σείω, seíō, to shake; and μέτρον, métron, measure and was coined by David Milne-Home in 1841, to describe an instrument designed by Scottish physicist James David Forbes.Seismograph is another Greek term from seismós and γράφω, gráphō, to draw. It is often used to mean seismometer, though it is more applicable to the older instruments in which the measuring and recording of ground motion were combined than to modern systems, in which these functions are separated.Both types provide a continuous record of ground motion; this distinguishes them from seismoscopes, which merely indicate that motion has occurred, perhaps with some simple measure of how large it was.The concerning technical discipline is called seismometry, a branch of seismology.

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Seismometer