Supposed a non-uniform magnetic field was probed with a magnetometer giving values in terms of millitesla (mT). The values were plotted along a grid with area of 2 square meters per grid. You were ale to calculate for the total magnetic flux calculated for the probed area, which was 96 mWb.
You were able to plot in a sample grid the individual values for magnetic fields you have probed. But in the process of preparing your data, you spilled coffee on your data sheet, erasing a single grid in your data. You were required to present all data yet you have no more access to the magnetometer and field already varied. The only way to present your data is to estimate and calculate backwards.
What is the magnetic field value at cell x (in mT) if the values for the other grids are as follows?:
5 | 1 |
2 | x |
Trending nowThis is a popular solution!
Step by stepSolved in 3 steps
- A 50 g ball cointaining 406779288 excess electrons is dropped into a 122m vertical shaft and enters a uniform horizontal magnetic field of 0.242T(from east to west).Ignoring air resistance,find the magnitude of the force that this magnetic field exerts on the ball.Leave your answer in 12 decimal places(eg 1.23e-10) Round your answer to 12 decimal places.arrow_forwardA singly-ionized methane atom (mass of 2.66×10-26 kg) follows the dotted path shown when sent into a mass spectrometer with a uniform magnetic field. Assume that the magnetic field in the mass spectrometer is caused by a large solenoid with a radius 54 cm, that is 0.6 m long and made up of 5900 loops. If a 9 T magnetic field is needed to detect a certain compound, how much current needs to be run through the coils of the solenoid? 7.28×102 A 6.56×102 A 1.21×103 A 2.43×107 A 1.11×103 Aarrow_forward