Skip to main content
Ask a Question
Test Bank
Mechanics
Kinematics
Projectile Motion
Uniform Circular Motion
Rotational Motion
Dynamics
Simple Harmonic Motion
Momentum
Energy and Waves
Work & Energy
Conservation of Energy
Waves & Sound
Sound Superposition and Interference
The Reflection of Light
The Refraction of Light
Light Superposition and Interference
Fluids and Thermal
Fluids Mechanics
Heat Transfer
Ideal Gas
Thermodynamics
Electromagnetic
Electric Charges and Forces
Electric Fields and Potential
Electric Current and Circuits
Magnetic Fields and Forces
EM Induction, EM Waves and AC Circuits
Modern and Nuclear
Relativity
Atomic Physics
Quantum Physics
Nuclear Physics
Toolkit
Textbooks
Calculator
Glossary
LaTex
Vpython
People in science
Log in
Welcome
Username
Password
Show Password
Log in
Sign in with a passkey
Remember me
Forgot Username?
Forgot Password?
Register
Donate
Ask a Question
of physics
Test Bank
of physics
Mechanics
Kinematics
Projectile Motion
Uniform Circular Motion
Rotational Motion
Dynamics
Simple Harmonic Motion
Momentum
Energy and Waves
Work & Energy
Conservation of Energy
Waves & Sound
Sound Superposition and Interference
The Reflection of Light
The Refraction of Light
Light Superposition and Interference
Fluids and Thermal
Fluids Mechanics
Heat Transfer
Ideal Gas
Thermodynamics
Electromagnetic
Electric Charges and Forces
Electric Fields and Potential
Electric Current and Circuits
Magnetic Fields and Forces
EM Induction, EM Waves and AC Circuits
Modern and Nuclear
Relativity
Atomic Physics
Quantum Physics
Nuclear Physics
Toolkit
of physics
Textbooks
Calculator
Glossary
LaTex
Vpython
People in science
Test Bank
Electromagnetic
Magnetic Fields and Forces
Magnetic Fields and Forces
Magnetism: Magnetic Forces and Magnetic Fields
Magnetic Fields and Forces Principles
Title Filter
Filter
Clear
Articles
Title
An alpha particle (q = +3.2 x 10-19 C, m = 6.67 x 1027 kg) is accelerated by a potential difference of 1200 V, and then enters a uniform magnetic field of magnitude 0.25 T, moving at 90° to the field. What is the magnetic force acting on it?
What is the force between two parallel conductors 2.0 cm long, carrying currents of 4.0 A and 10.0 A, that are 25 cm apart in a vacuum?
An airplane flying through the Earth’s magnetic field at a speed of 200 m/s acquires a charge of 100 C. What is the maximum magnetic force on it in a region where the magnitude of the Earth’s magnetic field is 5.0 x 10-5 T?
a straight conductor carries a current of 10.0 A through a uniform 0.65 T magnetic field. The magnitude of the force on the conductor is 11.0 N and the angle between the current and the magnetic field is 60.0 degrees. Calculate the length of the conductor
What is the magnetic force between two parallel wires 50 cm long and 10 cm apart, each carrying a current of 100 A in the same direction?
A straight wire carries a current of 20 A vertically upward, in a vacuum. An electron moves at a speed of 5.0 x 106 m/s, parallel to this wire but vertically downward, a distance of 10 cm from it. Calculate the magnitude and direction of the force on th
A conductor 40 cm long has a mass of 15 g and lies in a horizontal position, at a 90° angle to the field lines of a uniform horizontal magnetic field of 0.2 T. What must the current in the conductor be, so that the force on it will support its own weight
how many turns are required in a 5.0 cm solenoid with 9.82 A flowing through it to generate a magnetic field of 2.0x10^-2 T in its core?
What is the current flowing through a straight wire if the magnetic field strength 10 cm from the wire is 2.4 x 10-5 T?
A wire connecting a taillight to a motorcycle batter is 1.0 m long, and is lying perpendicular to the Earth’s magnetic field. If it experiences a force of 6.0 x 10-5 N when carrying a current for 1.5 A, what is the magnitude of the Earth’s magnetic field
Page 1 of 2
1
2
