Lecture13

... transverse to the string in the y-direction  The rate at which the disturbance propagates along the length of the string in the x-direction: wave speed • For a fixed wavelength, a string under greater tension F has a greater wave speed because the period of vibration is shorter, and the wave advanc ...

2005 Pearson Prentice Hall This work is protected by

... the displacement is in simple harmonic motion (SHM), and is often called a simple harmonic oscillator. ...

Questions - HCC Learning Web

... Show the equations and calculations, and box your answer. Be sure to include the units. ...

Chapter 8

... Period and Frequency -Period, T=time required for one complete trip back and forth and T=the time it takes the ball to make one complete circular trip on the turntable. -For the ball moves through a distance 2  A, the speed of the ball around the circular path is ...

Physics 11 - hrsbstaff.ednet.ns.ca

... b. 1.2 x 10 W e. 18 W c. 0 W 19. The amount of work an 118-W electric mower can do in 3.0 min is a. 3.5 x 102 J d. 2.1 x 104 J b. 0 J e. 3.9 ´ J c. 2.5 x 10-2 J 20. The shortest time interval in which a wave motion completely repeats itself (i.e., makes one complete vibration or oscillation) is call ...

Exam #: Printed Name: Signature: PHYSICS DEPARTMENT

... analyzed by treating the metal as a dielectric with an effective permittivity ǫeff = ǫ0 (1 + iσ/(ǫ0 ω)). a) Assuming that the conductivity σ is real, find the wave number of the wave within the metal at low frequency and high frequency. b) What is the dependence of the wave amplitude on distance fro ...

Chapter 11: Simple Harmonic Motion

... Now, stretch the spring as shown, moving the mass to x = A. If the mass is then released from rest, it will oscillate (in the absence of friction) forever between x = ± A. When the spring is stretched an amount x, it feels a restoring force F = -kx that tries to return the system to its equilibrium ...

Part I

... • An Elastic Medium is defined to be one in which a disturbance from equilibrium obeys Hooke’s “Law” so that a local deformation is proportional to an applied force. • If the applied force gets too large, Hooke’s “Law” no longer holds. If that happens the medium is no longer elastic. This is called ...

11-1 Simple Harmonic Motion Any vibrating system where the

... A wave travels along its medium, but the individual particles just move up and down. ...

Slide 1 - Mr Lundy`s Room

... A wave travels along its medium, but the individual particles just move up and down. ...

Phys 141 Test 1 Fall 03

... c. You can see a colorful rainbow after rain d. Radio waves can overcome the building so it makes the radio reception generally quite efficient 45. What is speed of light in crown glass? (Hint: use the index of refraction) a. 2.56 × 108 m/s b. 1.97 × 108 m/s c. 3.00 × 108 m/s d. 5.07 × 10-9 m/s 46. ...

Exam No. 01 (Fall 2013) PHYS 520A: Electromagnetic Theory I

... 2. (Schwinger et al., problem 7, chapter 1.) A charge q moves in the vacuum under the influence of uniform fields E and B. Assume that E · B = 0 and v · B = 0. (a) At what velocity does the charge move without acceleration? (b) What is the speed when ε0 E 2 = µ0 H 2 ? 3. A plane wave is incident, in ...

File

... If the external forced vibrations have the same frequency as the natural frequency of the object, the amplitude of vibration increases and the object exhibits resonance. The natural frequency (or frequencies) at which resonance occurs is called the resonant frequency. ...

SHM and Waves

... A wave travels along its medium, but the individual particles just move up and down. ...

Week 4 DQs Waves that are mostly caused by wind flow move in

... Waves that are mostly caused by wind flow move in small circles or orbs. Waves decline in speed when they go into the shoreline. The top of the wave is known as crest and the bottom is known as trough. The wave crest that will break when it gets into the shoreline. You will observe that in this week ...

Key words: Vibrations, Waves, Vibrational Motion, Periodic Motion

... We have studied two types of motion – translational and rotational. Now we will begin to analyze a third basic type of motion – Vibrational Motion. Vibrational motion occurs very often in technology and nature. For example, all atoms in solids execute vibrational motion around the equilibrium positi ...

Slide 1

... A wave travels along its medium, but the individual particles just move up and down. ...

Slide 1 - Mr Lundy`s Room

... will destroy the integrity of the work and is not permitted. The work and materials from it should never be made available to students except by instructors using the accompanying text in their classes. All recipients of this work are expected to abide by these restrictions and to honor the intended ...

What is a wave

... The body of a 1275 kg car is supported on a frame by four springs. Two people riding in the car have a combined mass of 153 kg. When driven over a pothole in the road, the frame vibrates with a period of 0.840 s. For the first few seconds, the vibration approximates simple harmonic motion. Find the ...

PHYS 342: Modern Physics

... • A traveling wave is a disturbance (pulse) that travels along the medium with a definite speed • A transverse wave produces particles in the medium that move perpendicular to the motion of the wave pulse • A longitudinal wave produces particles that move parallel to the motion of the wave pulse • B ...

Conceptual Physics- Final Examination Review Practice

... _______19. The force of attraction between two particles due to their mass is called gravity. _______20. An example of a lever is a hammer. _______21. Any change is speed or velocity is called acceleration. _______22. An object with more mass would be more difficult to stop. _______23. Energy is mea ...

DOUBLE JEOPARDY!

... The distance from the crest of a wave or the trough to the resting position of a wave. ...

DP Physics 4.1 Oscillations Name: 1. A wave can be described as

... entire bulk of the medium move in a parallel and a perpendicular direction (respectively) relative to the direction of energy transport. In a surface wave, it is only the particles at the surface of the medium that undergo the circular motion. The motion of particles tends to decrease as one proceed ...

Vibrations and Waves PowerPoint

... The force and acceleration start to increase in the opposite direction and velocity decreases The motion momentarily comes to a stop at x = - A It then accelerates back toward the equilibrium position The motion continues indefinitely ...

< 1 ... 3 4 5 6 7 >

Wave

In physics, a wave is an oscillation accompanied by a transfer of energy that travels through space or mass. Frequency refers to the addition of time. Wave motion transfers energy from one point to another, which may or may not displace particles of the medium—that is, with little or no associated mass transport. Waves consist, instead, of oscillations or vibrations (of a physical quantity), around almost fixed locations.There are two main types of waves. Mechanical waves propagate through a medium, and the substance of this medium is deformed. The deformation reverses itself owing to restoring forces resulting from its deformation. For example, sound waves propagate via air molecules colliding with their neighbors. When air molecules collide, they also bounce away from each other (a restoring force). This keeps the molecules from continuing to travel in the direction of the wave.The second main type of wave, electromagnetic waves, do not require a medium. Instead, they consist of periodic oscillations of electrical and magnetic fields generated by charged particles, and can therefore travel through a vacuum. These types of waves vary in wavelength, and include radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays, and gamma rays.Waves are described by a wave equation which sets out how the disturbance proceeds over time. The mathematical form of this equation varies depending on the type of wave. Further, the behavior of particles in quantum mechanics are described by waves. In addition, gravitational waves also travel through space, which are a result of a vibration or movement in gravitational fields.A wave can be transverse or longitudinal. Transverse waves occur when a disturbance creates oscillations that are perpendicular to the propagation of energy transfer. Longitudinal waves occur when the oscillations are parallel to the direction of energy propagation. While mechanical waves can be both transverse and longitudinal, all electromagnetic waves are transverse in free space.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Wave