Seismic Waves - Purdue University
... Seismic Waves Slinky – P, S, Rayleigh, Love waves; Reflection and transmission; energy carried by waves; elastic rebound/plate motions and the slinky; 5-slinky model – waves in all directions, travel times to different distances. Human wave demo – P and S waves in solids and ...
... Seismic Waves Slinky – P, S, Rayleigh, Love waves; Reflection and transmission; energy carried by waves; elastic rebound/plate motions and the slinky; 5-slinky model – waves in all directions, travel times to different distances. Human wave demo – P and S waves in solids and ...
4.1 Force
... • Relationship between force and motion? • Aristotle (384-322 B.C.) believed that a force was necessary to maintain a body in constant motion on a horizontal surface. Aristotle maintained that the greater the speed the greater the required force • Galileo, in about 1630, about 2000 years later, disp ...
... • Relationship between force and motion? • Aristotle (384-322 B.C.) believed that a force was necessary to maintain a body in constant motion on a horizontal surface. Aristotle maintained that the greater the speed the greater the required force • Galileo, in about 1630, about 2000 years later, disp ...
Forces and Motion
... Where would you weigh less, in Galveston or in Denver? Denver is the “Mile High City”; the force of gravity is less. Therefore, the force of gravity would be less because it is further away from the center of the Earth, and you would weigh slightly less. Gravity Song! ...
... Where would you weigh less, in Galveston or in Denver? Denver is the “Mile High City”; the force of gravity is less. Therefore, the force of gravity would be less because it is further away from the center of the Earth, and you would weigh slightly less. Gravity Song! ...
Chapter 3
... stick together, are the source of friction. – Static friction=two surfaces not moving past each other – Sliding friction= opposes the motion of 2 surfaces sliding past each other – Rolling friction=between the rolling object and the surface it rolls on (tire on ...
... stick together, are the source of friction. – Static friction=two surfaces not moving past each other – Sliding friction= opposes the motion of 2 surfaces sliding past each other – Rolling friction=between the rolling object and the surface it rolls on (tire on ...
Unit 4 – Chapter 7: Oscillatory Motion Requires a Set of Conditions
... 7.2 Simple Harmonic motion SHM is an oscillatory motion that has a constant period and frequency. It repeats itself in a predictable way. Examples of simple harmonic motion (SHM) ...
... 7.2 Simple Harmonic motion SHM is an oscillatory motion that has a constant period and frequency. It repeats itself in a predictable way. Examples of simple harmonic motion (SHM) ...
Lesson 1 Introducing Newtons Second Law
... When you have finished pick a card. Find the acceleration of the object on the card and use it to find the Resistance force present in the question. ...
... When you have finished pick a card. Find the acceleration of the object on the card and use it to find the Resistance force present in the question. ...
Chapter 3
... system made of carbon fiber and Kevlar, the device is connected to the helmet with a series of quick connect tethers. The HANS® Device is worn around the neck and down the front of the shoulders, underneath the safety belts of the ...
... system made of carbon fiber and Kevlar, the device is connected to the helmet with a series of quick connect tethers. The HANS® Device is worn around the neck and down the front of the shoulders, underneath the safety belts of the ...
Newton`s Second Law of Motion
... As stated, Newton’s first law of motion governs the properties of inertia that an object at rest stays at rest and an object in motion remain in motion in the absence of an external force. However, it is observed that an object that tends to move comes to rest at a certain point as well as objects t ...
... As stated, Newton’s first law of motion governs the properties of inertia that an object at rest stays at rest and an object in motion remain in motion in the absence of an external force. However, it is observed that an object that tends to move comes to rest at a certain point as well as objects t ...
8 5 6 3 6 9 5 0 6 9 - May June Summer 2014 Past Exam Papers
... Write your Center number, candidate number, and name on the work you hand in. Write in dark blue or black pen. You may use an HB pencil for any diagrams or graphs. Do not use staples, paper clips, glue, or correction fluid. Answer all the questions. Give non-exact numerical answers correct to 3 sign ...
... Write your Center number, candidate number, and name on the work you hand in. Write in dark blue or black pen. You may use an HB pencil for any diagrams or graphs. Do not use staples, paper clips, glue, or correction fluid. Answer all the questions. Give non-exact numerical answers correct to 3 sign ...
Name: Date:______ Period:_____ Chapter 19 Honors Study Guide
... The starting point you use to describe the motion or the position of an object 2. What is acceleration? Negative acceleration? The measure of how quickly the velocity of an object changes; when an object’s initial velocity is greater than its final velocity 3. Define speed? The distance an object mo ...
... The starting point you use to describe the motion or the position of an object 2. What is acceleration? Negative acceleration? The measure of how quickly the velocity of an object changes; when an object’s initial velocity is greater than its final velocity 3. Define speed? The distance an object mo ...
8.3
... object moving at a constant velocity will continue moving at a constant velocity unless acted upon by a nonzero net force. ...
... object moving at a constant velocity will continue moving at a constant velocity unless acted upon by a nonzero net force. ...
Class Exercise - Career Launcher
... Class Exercise - 9 Figure shows a centrifuge, consisting of a cylinder of radius 0.1 m, which spins around its central axis at the rate of 10 revolutions per second. A mass of 500 g lies against the wall of the centrifuge as it spins. What is the minimum value of the coefficient of static friction ...
... Class Exercise - 9 Figure shows a centrifuge, consisting of a cylinder of radius 0.1 m, which spins around its central axis at the rate of 10 revolutions per second. A mass of 500 g lies against the wall of the centrifuge as it spins. What is the minimum value of the coefficient of static friction ...
Force and Acceleration in Circular Motion
... Pull enough string through the tube so the length L is 50.0 cm. Recall that L is the distance from the center of the top of the tube to the center of the ball. Attach an alligator clip to the string about 1 cm below the plastic tube to serve as a marker so you can keep L constant while whirling the ...
... Pull enough string through the tube so the length L is 50.0 cm. Recall that L is the distance from the center of the top of the tube to the center of the ball. Attach an alligator clip to the string about 1 cm below the plastic tube to serve as a marker so you can keep L constant while whirling the ...
Standard EPS Shell Presentation
... If mass determines how much inertia an object has, which of these has more inertia? ...
... If mass determines how much inertia an object has, which of these has more inertia? ...
Name: Forces and Newton`s Laws Reading Notes Section 4
... Example: A 50-kg student stands on a scale in an elevator. The scale reading on the elevator is shown below as a function of time between elevator stops. (Use g = 9.8 m/s2.) ...
... Example: A 50-kg student stands on a scale in an elevator. The scale reading on the elevator is shown below as a function of time between elevator stops. (Use g = 9.8 m/s2.) ...