Please help with the SECOND CHART in this lab report, as well as some written analysis as well , please PLOT GRAPH

Introduction An electric charge, one of the fundamental properties of matter, exerts force on another electric charge. These forces can be observed simply with everyday objects. In this lab, you will examine what you can learn about charge by looking at the force between charges. In the first part of this activity, you will make some simple qualitative observations and deduce some of the properties of charge. In the second part of the activity, you will investigate quantitatively the dependence on distance of the force between the charges. Watch this Phet Simulator Use this table to collect your data (from the video): Charge Charge Charge 1 type Both positive Both negative 1+ and 2- 1- and 2+ Charge Charge 1 2 Now use this table to collect 2nd data set (Keep the same set of two charges): Force on Charge 2 Do the following: Distance r Force on Force on 2 between charges Charge 1 Charge 2 Distance r Force on between charges Charge 1 o O Magnitude of force between charges Plot a graph of F versus 1/r. Find the slope. Calculate the average of Fr values from the table. Explain what you understand by the slope and the average of Fr that you calculated. Now, do the following: Equate the slope to kq1q2. Find the value of k. Magnitude of force, F between charges Fr O Write down the standard value of electrostatic constant. o Find the percentage error. Explain how this lab describes the Coulomb's law. 1/r Use this table to collect your data (from the video): Distance r Charge Charge Charge 1 Force on Force on type 2 between charges Charge 1 Charge 2 Both positive 3PC 8C 3-6cm -166.936 166.436 166.436 Both negative - 16 1+ and 2- 34C -1rC 1- and 2+ -25 pe 5.2 cm 31.998-31.996 Magnitude of force between charges 421.291 421-291 421.291 2.4cm 46.810246.810 46.810 31-996 1 cm Charge|=pos+ charge 2 = Force on q2 by q = 390.085 N Force on q by q2 = 390.085 N 0 cm 1 2 -10 3 Charge 1 5 NC 0 4 L 9 10 5 L -10 6 92 7 Charge 2 -5 C 0 8 10 9 10 L Force Values Scientific Notation 1 cm 0 cm charge | = neg charge 2= pos + 1 2 -10 Force on q by q2 = 187.241 N 3 Charge 1 -3 C 0 4 Force on 9 by q = 187.241 N t.... 91 10 5 -10 6 Charge 2 4 C LLLL 7 0 8 10 9 DO 10 Force Values Scientific Notation 1 cm 0 cm Both negative 1 2 -10 Force on q by q2 = 234.051 N 3 Charge 1 -3 C 0 4 91 Force on 92 by q = 234.051 N 10 5 -10 6 92 7 Charge 2 -5 C 8 10 9 UK 10 Force Values Scientific Notation 1 cm 0 cm Both 1 2 -10 positive 3 Force on q by q2 = 624.135 N Charge 1 5 C 0 4 Force on 92 by q = 624.135 N 10 5 -10 6 92 7 Charge 2 8 C 0 8 10 ORA 9 UK 10 Force Values Scientific Notation 1 cm 0 cm 1 2 -10 L Force on q by q2 = 887.659 N 3 Charge 1 -4 C 0 4 Force on q by 9 = 887.659 N 10 5 -10 6 7 Charge 2 8 uC 0 8 10 9 O 10 Force Values Scientific Notation. 1 cm Force on q by 92 = 110.573 N 0 cm L 1 2 -10 3 Charge 1 -4 C 0 4 10 I Force on q2 by 9 = 110.573 N 5 -10 6 7 Charge 2 8 C 0 L 8 10 9 10 Force Values Scientific Notation Atomic Scale 10 pm Force on q by q = 1.15 10-6 N 0 pm 10 20 -10 1 picometer (pm) = 1 10-12 m 91 30 Charge 1 -2 e -0 40 0 Force on q by 9 = 1.15 x 10-6 N 10 50 -10 60 92 0 70 Charge 2 4 e -0 80 10 90 100 Force Values Scientific Notation 1 cm Macro Scale 0 cm 1 Force on q by q2 = 319.557 N 2 -10 3 Charge 1 -4 MC 0 0 91 4 Force on 9 by q = 319.557 N 10 5 -10 6 92 7 Charge 2 8 C 0 8 10 0 9 10 Force Values Scientific Notation 1 cm 0 cm 1 2 Force on q by q2 = 166.436 N -10 3 Used in first chart LLLLL 91 Charge 1 3 C 0 4 10 Force on q by q = 166.436 N 5 -10 6 A 7 92 Charge 2 8 C 0 8 10 9 GRA 10 Force Values Scientific Notation 5] 1 cm 0 cm 1 2 -10 Used in first chart 3 Force on q by 92 = 46.810 N Charge 1 3 C 0 I 4 10 91 Force on q2 by q = 46.810 N 5 -10 6 7 42 Charge 2 -1 C 0 8 10 9 OQ 10 Force Values Scientific Notation 1 cm Force on q by q2 = 31.996 N 0 cm 1 2 -10 41 Used in first chart 3 Charge 1 4 -2 C | 0 10 TI 5 Force on q by q = 31.996 N -10 6 7 9 Charge 2 5 C 0 8 10 9 10 Force Values Scientific Notation 1 cm 0 cm 1 2 Force on q by q2 = 421.291 N -10 Used in first chart 3 Force on q2 by q = 421.291 N Charge 1 -4 C 0 91 4 10 5 92 -10 6 7 Charge 2 -3 C 0 8 10 9 UKI 10 Force Values Scientific Notation Introduction An electric charge, one of the fundamental properties of matter, exerts force on another electric charge. These forces can be observed simply with everyday objects. In this lab, you will examine what you can learn about charge by looking at the force between charges. In the first part of this activity, you will make some simple qualitative observations and deduce some of the properties of charge. In the second part of the activity, you will investigate quantitatively the dependence on distance of the force between the charges. Watch this Phet Simulator Use this table to collect your data (from the video): Charge Charge Charge 1 type Both positive Both negative 1+ and 2- 1- and 2+ Charge Charge 1 2 Now use this table to collect 2nd data set (Keep the same set of two charges): Force on Charge 2 Do the following: Distance r Force on Force on 2 between charges Charge 1 Charge 2 Distance r Force on between charges Charge 1 o O Magnitude of force between charges Plot a graph of F versus 1/r. Find the slope. Calculate the average of Fr values from the table. Explain what you understand by the slope and the average of Fr that you calculated. Now, do the following: Equate the slope to kq1q2. Find the value of k. Magnitude of force, F between charges Fr O Write down the standard value of electrostatic constant. o Find the percentage error. Explain how this lab describes the Coulomb's law. 1/r Use this table to collect your data (from the video): Distance r Charge Charge Charge 1 Force on Force on type 2 between charges Charge 1 Charge 2 Both positive 3PC 8C 3-6cm -166.936 166.436 166.436 Both negative - 16 1+ and 2- 34C -1rC 1- and 2+ -25 pe 5.2 cm 31.998-31.996 Magnitude of force between charges 421.291 421-291 421.291 2.4cm 46.810246.810 46.810 31-996 1 cm Charge|=pos+ charge 2 = Force on q2 by q = 390.085 N Force on q by q2 = 390.085 N 0 cm 1 2 -10 3 Charge 1 5 NC 0 4 L 9 10 5 L -10 6 92 7 Charge 2 -5 C 0 8 10 9 10 L Force Values Scientific Notation 1 cm 0 cm charge | = neg charge 2= pos + 1 2 -10 Force on q by q2 = 187.241 N 3 Charge 1 -3 C 0 4 Force on 9 by q = 187.241 N t.... 91 10 5 -10 6 Charge 2 4 C LLLL 7 0 8 10 9 DO 10 Force Values Scientific Notation 1 cm 0 cm Both negative 1 2 -10 Force on q by q2 = 234.051 N 3 Charge 1 -3 C 0 4 91 Force on 92 by q = 234.051 N 10 5 -10 6 92 7 Charge 2 -5 C 8 10 9 UK 10 Force Values Scientific Notation 1 cm 0 cm Both 1 2 -10 positive 3 Force on q by q2 = 624.135 N Charge 1 5 C 0 4 Force on 92 by q = 624.135 N 10 5 -10 6 92 7 Charge 2 8 C 0 8 10 ORA 9 UK 10 Force Values Scientific Notation 1 cm 0 cm 1 2 -10 L Force on q by q2 = 887.659 N 3 Charge 1 -4 C 0 4 Force on q by 9 = 887.659 N 10 5 -10 6 7 Charge 2 8 uC 0 8 10 9 O 10 Force Values Scientific Notation. 1 cm Force on q by 92 = 110.573 N 0 cm L 1 2 -10 3 Charge 1 -4 C 0 4 10 I Force on q2 by 9 = 110.573 N 5 -10 6 7 Charge 2 8 C 0 L 8 10 9 10 Force Values Scientific Notation Atomic Scale 10 pm Force on q by q = 1.15 10-6 N 0 pm 10 20 -10 1 picometer (pm) = 1 10-12 m 91 30 Charge 1 -2 e -0 40 0 Force on q by 9 = 1.15 x 10-6 N 10 50 -10 60 92 0 70 Charge 2 4 e -0 80 10 90 100 Force Values Scientific Notation 1 cm Macro Scale 0 cm 1 Force on q by q2 = 319.557 N 2 -10 3 Charge 1 -4 MC 0 0 91 4 Force on 9 by q = 319.557 N 10 5 -10 6 92 7 Charge 2 8 C 0 8 10 0 9 10 Force Values Scientific Notation 1 cm 0 cm 1 2 Force on q by q2 = 166.436 N -10 3 Used in first chart LLLLL 91 Charge 1 3 C 0 4 10 Force on q by q = 166.436 N 5 -10 6 A 7 92 Charge 2 8 C 0 8 10 9 GRA 10 Force Values Scientific Notation 5] 1 cm 0 cm 1 2 -10 Used in first chart 3 Force on q by 92 = 46.810 N Charge 1 3 C 0 I 4 10 91 Force on q2 by q = 46.810 N 5 -10 6 7 42 Charge 2 -1 C 0 8 10 9 OQ 10 Force Values Scientific Notation 1 cm Force on q by q2 = 31.996 N 0 cm 1 2 -10 41 Used in first chart 3 Charge 1 4 -2 C | 0 10 TI 5 Force on q by q = 31.996 N -10 6 7 9 Charge 2 5 C 0 8 10 9 10 Force Values Scientific Notation 1 cm 0 cm 1 2 Force on q by q2 = 421.291 N -10 Used in first chart 3 Force on q2 by q = 421.291 N Charge 1 -4 C 0 91 4 10 5 92 -10 6 7 Charge 2 -3 C 0 8 10 9 UKI 10 Force Values Scientific Notation