A metal airplane with a wingspan of 30m flies horizontally along a north-south route in the northern hemisphere at a constant speed of 320 km/h in a region where the vertical component of the Earth's magnetic field is 5.0 x10 to the negative fifth T. (a) What is the magnitude of the induced emf between the tips of the wings? (b) If the easternmost wing tip is negatively charged, is the plane flying due north or south? Explain. This is problem number 12, chapter 20, in the College Physics book, seventh edition by Wilson, Buffa, and Lou. Thanks for the help.

A metal airplane with a wingspan of 30m flies horizontally along a north-south route in the northern hemisphere at a constant speed of 320km/h in a region where the vertical component of the Earth's magnetic field is 5.0 x10^-5 T.(a) What is the magnitudeof the induced emf between the tips of its wings?(b) If the easternmost wing tip is negatively charged, is the plane flying due north or due south? Explain

A metal airplane with a wingspan of 30 m flies horizontally along anorth-south route in the northern hemisphere at a constant speed of320 km/h in a region where the vertical component of the earth'smagnetic field is 5.0 x 10^-5 T.

a) What is the magnitude of the induced emf between the tips of itswings?
b) if teh easternmost wing tip is negatively charged, is the planeflying due north or due south? Explain.

the wingspan (tip to tip) of a Boeing 747 jetliner is 59m. The plane is flying horizontally at a speed of 220 m/s. The vertical component on the earths magnetic field is 5.0*10^-6 T. Find the emf induced between the planes wing tips?