A stack of neodymium button magnets (12 mm diameter, 75 mm tall) dropped from 0.200 m high, generates an average +2.375 Volt for 0.040 seconds, as it enters a lab coil that has 800 turns spread along 40 mm tall, each with 0.112 m circumference (28 mm long × 28 mm wide).
[a) how much B pierces the coil Area after the magnet has exited?]
d) if the stack takes 0.0375 s to exit the coil (downward), what average voltage would be generated?
A stack of neodymium button magnets (12 mm diameter, 75 mm tall) dropped from 0.200 m...
QUESTION 5 A stack of neodymium button magnets (12 mm diameter, 75 mm tall) dropped from 0.200 m high, generates an average +2 375 Volt for 0.040 seconds, as it enters a lab coil that has 800 turns spread along 40 mm tall, each with 0.112 m circumference (28 mm long x 28 mm wide) [a) how much voltage aggregates along each loop?] b) Compute the magnetic field inside the magnet stack [c) if the stack's magnetic North pole was...
QUESTION 6 A stack of neodymium button magnets (12 mm diameter, 75 mm tall) dropped from 0.200 m high, generates an average +2 375 Volt for 0.040 seconds, as it enters a lab coil that has 800 turns spread along 40 mm tall, each with 0.112 m circumference (28 mm long x 28 mm wide) ja) how much voltage aggregates along each loop?] b) if the stack's magnetic North pole was down, what direction of Electric field was induced as...
a stack of neodymium button magnets (12 mm diameter, 75 mm tall) dropped from 0.2 m high, generates an average +2.375 V for 0.04 seconds as it enters a lab coul thag has 800 thens apeead along 40 mm tall, each with 0.112 m circumference (28 mm long x 28 mm wide). compute the magnetic field inside the magnet stack. these are also questions that have to do with this one that I'd appreciate if you answered, but the magnetic...