What is Induced: Definition and 971 Discussions

Induced seismicity refers to typically minor earthquakes and tremors that are caused by human activity that alters the stresses and strains on the Earth's crust. Most induced seismicity is of a low magnitude. A few sites regularly have larger quakes, such as The Geysers geothermal plant in California which averaged two M4 events and 15 M3 events every year from 2004 to 2009. The Human-Induced Earthquake Database (HiQuake) documents all reported cases of induced seismicity proposed on scientific grounds and is the most complete compilation of its kind.Results of ongoing multi-year research on induced earthquakes by the United States Geological Survey (USGS) published in 2015 suggested that most of the significant earthquakes in Oklahoma, such as the 1952 magnitude 5.7 El Reno earthquake may have been induced by deep injection of waste water by the oil industry. A huge number of seismic events in fracking states like Oklahoma caused by increasing the volume of injection. "Earthquake rates have recently increased markedly in multiple areas of the Central and Eastern United States (CEUS), especially since 2010, and scientific studies have linked the majority of this increased activity to wastewater injection in deep disposal wells."Induced seismicity can also be caused by the injection of carbon dioxide as the storage step of carbon capture and storage, which aims to sequester carbon dioxide captured from fossil fuel production or other sources in Earth's crust as a means of climate change mitigation. This effect has been observed in Oklahoma and Saskatchewan. Though safe practices and existing technologies can be utilized to reduce the risk of induced seismicity due to injection of carbon dioxide, the risk is still significant if the storage is large in scale. The consequences of the induced seismicity could disrupt preexisting faults in the Earth's crust as well as compromise the seal integrity of the storage locations.The seismic hazard from induced seismicity can be assessed using similar techniques as for natural seismicity, although accounting for non-stationary seismicity. It appears that earthquake shaking from induced earthquakes is similar to that observed in natural tectonic earthquakes, although differences in the depth of the rupture need to be taken into account. This means that ground-motion models derived from recordings of natural earthquakes, which are often more numerous in strong-motion databases than data from induced earthquakes, can be used. Subsequently, a risk assessment can be performed, taking account of the seismic hazard and the vulnerability of the exposed elements at risk (e.g. local population and the building stock). Finally, the risk can, theoretically at least, be mitigated, either through modifications to the hazard or a reduction to the exposure or the vulnerability.

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  1. fluidistic

    Understanding the physics of induced charge over a perfect conductor

    Understanding the physics of "induced charge" over a perfect conductor When we put a perfect conductor, let's say a sphere inside an external electric field, there will be a surface charge distribution different from 0 even though the sphere is electrically neutral. I don't really understand...
  2. B

    How Do You Calculate Average Induced Voltage in a Changing Magnetic Field?

    Homework Statement The magnetic field shown in Figure P20.61 has a uniform magnitude of 29.00 mT directed into the paper. The initial diameter of the kink is 0.30 cm. (a) The wire is quickly pulled taut, and the kink shrinks to a diameter of zero in 55.00 ms. Determine the average...
  3. R

    Engineering Finding motor line current and induced e.m.f?

    1. A 400 V, 10 HP, 3-phase synchronous motor has negligible armature resistance and a synchronous reactance of 10 Ω/phase. The motor runs at unity power factor. Determine the motor line current and the corresponding induced e.m.f for full-load conditions. The efficiency of the motor is 85%...
  4. L

    What is the induced emf in one of the windings?

    1. A solenoid of length 3.64 cm and diameter 0.914 cm is wound with 170 turns per cm. If the current is decreasing at a rate of 36.3 A/s, what is the induced emf in one of the windings? this is what I did: Length of the solenoid l = 3.64cm = (3.64...
  5. P

    Calculate strain induced in a rubber(Elastosil 607) against applied force

    Hello Team, I have a rubber (harness A of 54 and elongation at break of 100%) on which 30N of force is applied over 45mm2 of ares. I would like to know the strain induced in the rubber against the force. The problem here is i could not find the exact Young's modulus value for this material. But...
  6. K

    Conflict: why synchronous machine doesn't produce induced EMF in the DC field wires

    conflict: why synchronous machine doesn't produce induced EMF in the DC field wires Isn't it current path through winding which produce magnetic field (rotating) the must produce EMF in the dc winding of field (same theory of induction) but why isn't true in synchronous
  7. jaketodd

    Electromagnetically Induced Transparency Molecular Atom Selectivity?

    Can electromagnetically induced transparency, be effected on a single atom within a molecule? Thanks, Jake
  8. K

    Induced emf and flux in a transformer, conceptual question

    Hey Folks, I am a third year electrical engineering student and just want to clarify a concept involving electromagnetics/transformers. When supplying magnetization current to a transformer (assume sinusoidal), this induces a time changing magnetic flux in the core. The time changing magnetic...
  9. jaketodd

    Quick Electromagnetically Induced Transparency Question

    Do you need a magnetic field for EIT, or just two electromagnetic beams with the right attributes? Thanks, Jake
  10. J

    Question concerning a topology induced by a particular metric.

    The question comes from the Munkres text, p. 133 #3. Let Xn be a metric space with metric dn, for n ε Z+. Part (a) defines a metric by the equation ρ(x,y)=max{d1(x,y),...,dn(x,y)}. Then, the problem askes to show that ρ is a metric for the product space X1 x ... x Xn. When I originally...
  11. R

    Induced electric field in a solenoid

    Homework Statement A long solenoid with 1000 turns per meter and radius 2cm carries an oscillating current given by (5A)\sin(100\pi t). What is the electric field induced at radius r=1cm from the axis of the solenoid? What is the direction of this electric field when the current is...
  12. D

    Induced current on a metallic ring

    I've just got confused about how the induced current in a metallic ring is calculated. Consider a metallic ring (radius a, resistance R and inductance L) immersed in a oscillating magnetic field, which is oriented orthogonally to the plane of the ring. The variation in flux of magnetic...
  13. D

    Induced Electric Field: Near Magnetic Field?

    Can electric field be induced at a point near a time varying uniform magnetic field? "Near" means not the in the place where magnetic field exist. But at a point outside the field's presence.
  14. E

    E field induced by toroidal solenoid with changing current

    Homework Statement Suppose we have a toroidal solenoid with square cross section and whose axis of symmetry lies along the z axis. Suppose a current I(t)=kt runs through the solenoid. Find the induced electric field at an arbitrary point on the z axis. Homework Equations \oint \vec E \cdot...
  15. mishima

    How does induced charge affect the balance of a conducting beam?

    Say you had a rectangular piece of conductor perfectly balanced on a central pivot point. Around it, you put something that causes an electric field throughout the region. On one end of the balanced piece, atomic cores get exposed as the electron sea rushes to the opposite side via induction...
  16. K

    Induced current's appearance in different situations.

    Homework Statement A DC is flowing through a conductor LK. Homework Equations Will there be a current in the frame ABCD, when: a) The current in LK will be switched on and off. b) The frame will not move relative to the conductor LK. c) The frame will be dragged to the...
  17. D

    How Do You Calculate Induced Voltage in a Coil with External Magnetic Field?

    Hello. Say I have a single turn of a coil in an external magnetic field. How do I calculate the voltage induced in this turn ? Initially I would use Faraday's law ∇×E = -j ω B But what should I use for B ? Will B not be a combination of both the external field as well as the field...
  18. I

    Find the emf induced in a metal ring rotating in a magnetic field

    First off, sorry if this is a simple question, I'm very bad at electromagnetism. Homework Statement A metal ring of radius R rotates with constant angular velocity ω about a diameter. Perpendicular to the rotation axis is a constant magnetic induction field \underline{B}. Find the EMF...
  19. P

    Find the current induced by a magnetic field, and the power

    Homework Statement A technician wearing a brass bracelet enclosing area 0.005 00 m2 places her hand in a solenoid whose magnetic field is 5.00 T directed perpendicular to the plane of the bracelet. The electrical resistance around the circumference of the bracelet is 0.020 0 Ω. An unexpected...
  20. A

    Difference between induced emf and counter emf

    What is the difference between induced electromotive force and counter electromotive force? The way they are generated seems the same to me. Can someone tell me the difference and how they are different?
  21. 1

    Find induced emf (among other things) in this current + motion

    Homework Statement Attached Homework Equations The Attempt at a Solution I'm pretty confused about this one. First, I thought that maybe the magnetic field's non uniformity didn't matter since the rate of change of flux was going to be the rate of change of area, but that's...
  22. M

    Introduction to Electrodynamics: External Field & Induced Charge

    Homework Statement Introduction to Electrodynamics by Griffiths, 3rd ed. pg 141-2, Example 3.8: An uncharged metal sphere of radius R is placed in an otherwise uniform electric field E=(0,0,E). [The field will push positive charge to the northern surface of the sphere, leaving a negative...
  23. S

    Can magnetic poles have varying strengths?

    I'm quite new here, but here's my question: Is there a way to make one magnetic pole stronger than another?
  24. I

    EMF induced via change in magnetic flux vs. velocity in magnetic field

    Homework Statement (See attached diagram)--Note this problem was taken from Barron's SAT Physics Practice Test 1 #58 As the loop rotates, the induced voltage will be maximum at... a) 0 degrees and 90 degrees b) 0 degrees and 180 degrees c) 90 degrees and 270 degrees d) 180 degrees and 270...
  25. Q

    Primary cause of the force induced by a current in a magnetic field.

    Not sure if this is in the right section, but anyway... Homework Statement Explain the primary cause of the force experienced by the rod. In your explanation you must refer to the magnetic field generated by the current. The rod is carrying current perpendicular to the magnetic field...
  26. S

    Induced emf when dropping a magnet into a solenoid

    I am having some trouble understanding why and how the emf changes when a bar magnet is dropped into a solenoid. As the magnet moves down (have not entered the solenoid yet) it experences an increase in magnetic field. As it enters the magnet it experiences an increase in magnetic still until...
  27. N

    Computing the emf induced in a coil

    Homework Statement The following is Problem 1-13 on page 23 from Electrical Engineering Fundamentals, 2nd ed., by Vincent del Toro: "In the configuration shown in Fig. P1-13 the coil has 100 turns and is attached to the rotating member which revolves at 25 \frac{rev}{s}. The magnetic...
  28. C

    Cosmic ray induced nuclear fusion

    Has anybody thought of it before? I mean even if it were energetically expensive to harness it it might actually create more than it takes since the energy source is raining down from the heavens anyway. Such a power plant would have to be placed at a high altitude though because most cosmic...
  29. F

    EMF induced in conducting wire

    We just went over Faraday's law in class and our teacher stressed how a changing flux is needed to induce an emf in some coil/loop/wire. I was just wondering then, how is an emf induced in a straight conducting wire moving at a constant velocity in a constant magnetic field? It seems as if...
  30. Q

    A Question about Spin Induced Magnetic Moment

    Does photon has spin induced magnetic moment? I think the answer is no. But why? You know, electron has. Does this have something to do with the fact that electron is massive while photon massless?:confused:
  31. N

    Calculating Induced EMF for a Changing Magnetic Field Loop

    1. A rectangular wire loop (length 60 cm, width 40 cm) lies completely within a perpendicular and uniform magnetic field of magnitude of 0.5 T. If the length of the loop starts increasing at a rate of 20 mm/s at time t = 0, while the width is decreasing at the same rate, what is the magnitude...
  32. H

    The Electric Field Inside an induced Conductor

    I don't quite grasp this statement : Open attachment to view the image of what's going on The field from a positive charge Q pulls electrons to the surface of the metal nearest Q, leaving a net positive charge on the surface farthest from Q. The fields of these induced charges resting on...
  33. M

    Calculating Induced Metric on Vector Bundle E

    hi friends, Suppose we have a vector bundle E equipped with a hermitian metric h, and in a subbundle of E noted SE . I would like tocalculate explicitly the induced metric Sh defined on SE. How to proceed?
  34. I

    Magnetic field induced by a charging infinite plane

    It's a routine to calculate the magnetic field between circular capacitor plates by the Ampere-Maxwell law, and it can be shown that the magnetic field increases linearly with the distance from the center of the capacitor plates, with direction parallel to the plates. But what if the radius of...
  35. H

    Is stored energy present in a bar that expands freely due to thermal induction?

    When a bar is heated evenly, and it expands freely, they say it has zero induced stress. How about the stored energy? Isn't some energy stored in the process of expansion? Can this energy be calculated the same way the elastic energy is calculated? If so, why we state that it has zero stress...
  36. D

    How Does Coil Winding Affect Induced Current in Generators and Solenoids?

    Homework Statement http://img831.imageshack.us/img831/9721/img20120725160304.jpg http://img542.imageshack.us/img542/653/img20120725160312.jpg Fig 1 is an AC generator Fig 2 shows 2 solenoids (ASSUME the area of coils in both fig1 and 2 are the same = A, resistance of 3-turn coils = R)...
  37. R

    Detecting induced electric fields in the ocean

    Hi everyone: Since there are many ions in ocean water, and these ions are carried by ocean currents, and they are moving through the Earth's magnetic field, by the electromagnetic induction laws, wouldn't there be a induced electric field in the ocean? if i want to detect this electric field...
  38. P

    EMF induced in a rotating coil

    Hi, So, I am learning about induced emf. I am having a hard time grasping the idea that we are interested in the angle between the normal to the plane of the coil and the magnetic field. In the standard illustration I actually understand it, but the following question confuses me. We are...
  39. Math Amateur

    Algebraic Topology - Retractions and Homomorpisms Induced by Inclusions

    I am reading Munkres book on Topology, Part II - Algegraic Topology Chapter 9 on the Fundamental Group. On page 348 Munkres gives the following Lemma concerned with the homomorphism of fundamental groups induced by inclusions": " Lemma 55.1. If A is a retract of X, then the homomorphism...
  40. Math Amateur

    Algebraic Topology - Fundamental Group and the Homomorphism induced by h

    On page 333 in Section 52: The Fundamental Group (Topology by Munkres) Munkres writes: (see attachement giving Munkres pages 333-334) "Suppose that h: X \rightarrow Y is a continuous map that carries the point x_0 of X to the point y_0 of Y. We denote this fact by writing: h: ( X...
  41. B

    EMF induced in solenoid by current in a loop.

    Homework Statement A square loop with side-length a is positioned at the centre of a long thin solenoid, which has radius r (with r>a), length l and N turns. The plane of the loop is perpendicular to the axis of the solenoid, find V_{emf} induced in the solenoid Homework Equations...
  42. L

    Induced Current and Eddy Current

    Homework Statement I want to know whether Eddy current and Induced Current are same? Homework Equations The Attempt at a Solution 1)When flux linked with a circuit changes, an emf is induced in the circuit and this emf is called induced emf and the current is called induced...
  43. O

    Nonsinusoidal Induced EMF: Can a Rotating Loop Create a Non-Sinusoidal EMF?

    Homework Statement The book describes a rectangular loop of wire in a uniform magnetic field created by a pair of coils. It then discusses the emf that is produced when the rectangular loop rotates with constant angular velocity, noting that the induced emf varies sinusoidally with time. At...
  44. 1

    If a conductor gets an induced charge is then grounded

    If a neutral conductor gets an induced charge and is then grounded, will electrons from the ground flow into the conductors induced positively charged side, resulting in a net negative charge for the whole conductor?
  45. E

    Find Induced Voltage in Rotating Conductor in Radial Field

    Homework Statement A conductor 1 cm in length is parallel to z axis and rotates in a radius of 25 cm at 1200 rev/min , find induced voltage if radial field is given by B = 0.5 a_{r} Homework Equations The Attempt at a Solution i am confused. If there is no closed path then how the...
  46. T

    Faradays law/Lens law: how does the induced emf 'act'

    Hello everyone. I'm trying to understand how an 'induced' emf behaves on a current carrying conductor. Basically the example that's giving me problems is in the case of a motor, if a current starts to pass through a coil it will get an induced 'emf' to oppose the motion. And hence it...
  47. E

    How Is EMF Induced in a Spinning Bicycle Wheel in a Magnetic Field?

    Homework Statement A student is experimenting with a bicycle wheel. He turns the bicycle upside down and spins the wheel in a vertical plane at a constant rate. The diagram shows the wheel. At the place where the experiment is performed, the Earth‟s magnetic field is in a horizontal direction...
  48. E

    Exploring Induced EMF: Polarity and Direction of a Bicycle Wheel Experiment

    Homework Statement A student is experimenting with a bicycle wheel. He turns the bicycle upside down and spins the wheel in a vertical plane at a constant rate. The diagram shows the wheel. At the place where the experiment is performed, the Earth‟s magnetic field is in a horizontal direction...
  49. I

    Friction with induced coil and magnetic force

    Homework Statement As shown in the attached figure, two rails of conducting wire,M and N, run parallel to each other on a horizontal plane and are separated by distance l. The rails are in a magnetic field of magnetic flux density B that is in the vertically upward direction. An electrically...
  50. P

    How Does a Point Charge Affect Induced Charges on Grounded Infinite Plates?

    Homework Statement two infinite conducting plates 1 and 2(both grounded or connected by a wire so that their potential is same) are separated by a distance l. A point charge q is located between the plates at a distance x from plate 1. find the charges induced on each plate. Homework...
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