I'm having trouble with some questions. They're listed below.

1) The particle in the figure below has a charge of 8.00 ⨯ 10^-6 C, a speed of 1.20 ⨯ 10³ m/s, and it is in a uniform magnetic field, directed into the page, of 2.50 ⨯ 10^-2 T. The initial velocity of the particle is directed at 30° below the positive x-direction, assuming the x-direction is toward the right. What is the magnitude of the magnetic force acting on the particle? 

The image is the first image that shows up with the 9 dots.

As for the other question I've already solved for two parts and am just having some trouble for part C. 

2) Particle 1 has a charge of +40.0 microcoulombs, and a mass of 2.40 milligrams. Particle 1 also has a speed, when it enters region A, of 6.00 m/s. 

a) If region A is a square measuring 30.0 cm on each side (the other regions have the same size as region A, of course), what is the magnitude of the magnetic field in region A- I found it to be 3.6 Teslas

b) From the instant particle 1 enters region A for the first time, until it leaves region B, how much time elapses?

I found the answer to be 0.1308 seconds.

Part C is the question where I am having trouble: If particle 2 has the same mass and the same speed as particle 1, what is the charge on particle 2? 

I got 20 microcoulumbs but it isn't right and I don't know where I went wrong with calculuations. 

The image for this question is the second image that shows up; the grid broken up into four colored sections. I apologize for all the questions, but I would really like to understand where I went wrong with solving it. I greatly appreciate all the help though. 

Transcribed Image Text:

-30° ®B ®

Transcribed Image Text:

A 1 B 2 C