9. Magnetic Fields.md
2024-4-11|2024-4-12
Pat
type
status
date
slug
summary
tags
category
icon
password
Here is the converted quiz with blank underlines for the answers:
20.1 Concept of a Magnetic Field
- Conceptual Understanding: What is a magnetic field, and what are the two primary sources that produce it? Answer:
- Representation: Describe how magnetic field lines are used to represent a magnetic field and state what the properties of these lines represent. Answer:
20.2 Force on a Current-Carrying Conductor
- Conceptual Understanding: When does a force act on a current-carrying conductor in a magnetic field? Answer:
- Formula Dictation and Application: State the formula that describes the force on a current-carrying conductor in a magnetic field, and calculate the force exerted on a 2-meter-long wire carrying a current of 3 A at a right angle to a magnetic field with a flux density of 0.5 T. Answer:
- Definition Dictation: Define magnetic flux density and explain its significance in relation to a current-carrying conductor in a magnetic field. Answer:
20.3 Force on a Moving Charge
- Direction Determination: How can the direction of the force on a charge moving in a magnetic field be determined? Answer:
- Formula Dictation and Application: State the formula for the force on a moving charge in a magnetic field and calculate the force on a proton moving at \(2 \times 10^6\) m/s perpendicular to a magnetic field of strength \(1.5 \times 10^{-2}\) T. Answer:
- Hall Effect: Explain the origin of the Hall voltage and derive the expression for the Hall voltage \(VH = \frac{BI}{ntq}\), where \(t\) is the thickness. Answer:
- Hall Probe: Describe how a Hall probe can be used to measure magnetic flux density. Answer:
- Charged Particle Motion: Describe the motion of a charged particle moving in a uniform magnetic field when the particle's velocity is perpendicular to the field. Answer:
- Velocity Selection: Explain how electric and magnetic fields can be used in velocity selection. Answer:
Section 20: Magnetic Fields
20.4 Magnetic Fields Due to Currents
- Magnetic Field Patterns: Sketch the magnetic field patterns for the following current-carrying conductors: a long straight wire, a flat circular coil, and a long solenoid. Answer:
- Solenoid with a Ferrous Core: Explain how the magnetic field due to the current in a solenoid is affected by introducing a ferrous core. Answer:
- Forces Between Conductors: Explain the origin of the forces between current-carrying conductors and determine the direction of these forces. Answer:
20.5 Electromagnetic Induction
- Magnetic Flux: Define magnetic flux and state its units. Answer:
- Magnetic Flux Calculation: Recall and use the equation \(\Phi = BA\) to calculate the magnetic flux through a surface area of 0.02 m² in a uniform magnetic field of 0.5 T. Answer:
- Magnetic Flux Linkage: Understand and use the concept of magnetic flux linkage. Answer:
- Electromagnetic Induction Experiments: Understand and explain experiments that demonstrate electromagnetic induction, including the factors affecting the magnitude of the induced e.m.f. Answer:
- Faraday’s and Lenz’s Laws: Recall and use Faraday’s and Lenz’s laws of electromagnetic induction. Answer:
Loading...