This time your object has a mass of 17.0 kg. Now imagine taking all the protons out of the object and stuffing them into a box. Also take all the electrons out of the object and stuff them in a second box. How much charge is contained in the box with all the protons?

 

Question options:

	1.63E+09 C
	3.26E+09 C
	4.07E+08 C
	8.14E+08 C

 

 

Your object has mass 13.9 kg, and you ve separated the boxes of protons and electrons by a distance of 22 m. If you were to release the clump of protons from their box, how much acceleration would the clump of protons undergo due to its attraction to the clump of electrons in the other box?

 

Question options:

	1.18E+24 m/s^2
	2.36E+24 m/s^2
	4.72E+24 m/s^2
	5.90E+23 m/s^2

 

 

This time you put a nucleus with 6 protons on the x-axis at x = 5.2 Angstroms. There will be a place on the x-axis where the total electric field is zero. At what value of x does this occur?

 

Question options:

	1.84 Angstroms
	-3.59 Angstroms
	-2.87 Angstroms
	2.30 Angstroms

 

 

Now you have a nucleus with 18 protons, placed at x = 6.2 Angstroms. What what TWO values of x (along the x-axis) will the total electrostatic potential V be equal to zero?

 

Question options:

	-0.36 Angstroms and 0.33 Angstroms
	0.36 Angstroms and -0.33 Angstroms
	-0.18 Angstroms and 0.20 Angstroms
	0.18 Angstroms and -0.20 Angstroms

 

 

Now you have a nucleus with 14 protons at x = 2.2 Angstroms on the x-axis. How much work would it take to bring in ANOTHER nucleus with 9 protons from 1 m away and place it at y = 7.8 Angstroms on the y-axis?

 

Question options:

	-16.6 eV
	223.6 eV
	144.9 eV
	207.0 eV