Good afternoon, you don't have to do the table it's already done.

Referencing from the table below can you help me answering the question number 6-12 pleases?

D PHYS 1402/2426 H M N Lab: Coulomb's Law Acceleration vs Mass Graph Table 2 = 6 cm 120 & (NC) 42 (C) F. (N) 10 LODE-05 125.1 9 9.DOE-06 112.5 B.006-06 99.9 7.ODE-06 87.48 6.006-06 74 97 5 006-06 62.38 4.00E-06 49.97 Data Fans 1.ODE-06 37.53 Linear Data Poire 1. E-06 LEGS Charge (C)Question 6 (Mandatory) (1 point) Enter the value for FE in newtons when q2 has a charge of 10 MC AQuestion 8 (Mandatory) (2 points) Does the data support a linear relationship between charge and force? Explain. Paragraph BIUAEEV + v . .. Add a File Record Audio Record Video Question 9 (Mandatory) (2 points) Take a picture or scan your graph and upload your work. Please use jpeg or pdf format. BIUA Ev + v . .. ParagraphQuestion 10 (Mandatory) (3 points) Take a picture or scan your calculations from question 10 showing your determination for the electric constant k. Please use jpeg or pdf format. Paragraph v BIUAEEV + .. .Question 11 (Mandatory) (1 point) Question 11 C Calculate the total electromagnetic force on q2 due to the presence of both q1 and q3. Determine the magnitude (positive answer) of the total force. A/ Question 12 (Mandatory) (1 point) Question 11 D Calculate the direction angle of the total force. Express the angle in positive degrees measured counter-clockwise from the positive x-axis. a) 45 O b) 135 O c) 225 O d) 315Lab - Coulomb's Law - Phet Simulation This activity consists of two Parts Part one: Eclectic force versus distance. Part two: Electric forces versus charge. This lab uses the following PHeT simulation: Coulomb's Law (https://phet.colorado.edu/sims/html/coulombs-law/latest/coulombs-law_en.html) Objectives: 1- Satisfy Coulomb's law experimentally 2- Study the parameters that affect the electric force 3- Determine the electric constant k Theoretical Background: Coulemb's Law: "The magnitude of the electric force that a particle exerts on another is directly proportional to the product of their charges and inversely proportional to the square of the distance between them." Mathematically, the magnitude of this electrostatic force FE acting on two charged particles (q1, q2) is expressed as: kq192 FE = 72 Where r is the separation distance between the charged objects and k is a constant of proportionality, called the Coulomb constant, k = 9.0 x 109 Nm/C2. Part one: In this part of the experiment we will explore the inverse square relationship between distance and force. The charges will be held constant throughout. 1. Open the simulator for the macro scale and enter the following values: 91 = 2 HC, 92 = 4 HC