Ampere`s law of force
... law of force is the “law of action” between current carrying circuits. Ampere’s law of force gives the magnetic force between two current carrying circuits in an otherwise empty universe. Ampere’s law of force involves complete circuits since current must flow in closed ...
... law of force is the “law of action” between current carrying circuits. Ampere’s law of force gives the magnetic force between two current carrying circuits in an otherwise empty universe. Ampere’s law of force involves complete circuits since current must flow in closed ...
9 Torque
... 1. Weigh the meter stick you use. Record the mass and estimate the uncertainty. 2. Set up the meter stick and force sensors as shown in Figure 9.1. The meter stick will be suspended from a beam via the two force sensors. (These will also be used to determine the upward vertical forces at these posit ...
... 1. Weigh the meter stick you use. Record the mass and estimate the uncertainty. 2. Set up the meter stick and force sensors as shown in Figure 9.1. The meter stick will be suspended from a beam via the two force sensors. (These will also be used to determine the upward vertical forces at these posit ...
TOPIC 6.3: Magnetic Fields and Forces
... wire. Meaning a weaker field the further away. A _________________ is a long wire wrapped around a metal core which produces a magnetic field when electric current is passed through it. They are important because they create controlled magnetic fields and can be used to convert energy into motion. ...
... wire. Meaning a weaker field the further away. A _________________ is a long wire wrapped around a metal core which produces a magnetic field when electric current is passed through it. They are important because they create controlled magnetic fields and can be used to convert energy into motion. ...
Lesson 2 Magnetism Notes File
... A compass can help determine direction because the north pole of the compass needle points ________. ...
... A compass can help determine direction because the north pole of the compass needle points ________. ...
Magnetic Interaction
... magnetic interaction There is interaction between a particle and other bodies which depends on the charge of the particle, its position and its velocity (and its spin). We call this interaction a magnetic interaction. Moving charged particles in the body cause the magnetic interaction. ...
... magnetic interaction There is interaction between a particle and other bodies which depends on the charge of the particle, its position and its velocity (and its spin). We call this interaction a magnetic interaction. Moving charged particles in the body cause the magnetic interaction. ...