Campi elettrici: problemi e soluzioni

Campi elettrici: problemi e soluzioni

1. Point A located at the center between two charges. Both charges have the same magnitude but opposite sign and separated by a distance of a. The magnitude of the electric field at point A is 36 N/C. If point A moved 1/2a close to one of both oneri, what is the magnitude of the campo elettrico at point A?

Conosciuto :

Ricarica 1 (q1) = +Q

Ricarica 2 (q2) = -Q

The distance between charge 1 and point A (r1A) = ½ a

The distance between charge 2 and point A (r2A) = ½ a

The magnitude of the electric field at point A (EA) = 36 NC-1

Ricercato: L'entità del campo elettrico

soluzione:

step 1.

The electric field produced by a charge +Q al punto A :

Electric field – problems and solutions 1

Test charge is positive and charges 1 is positive so that the direction of the electric field points to charge 2.

The electric charge produced by a charge -Q al punto A :

Electric field – problems and solutions 2

Test charge is positive and charges 2 is negative so that the direction of the electric field points to charge 2.

La risultante del campo elettrico nel punto A:

Electric field – problems and solutions 3

Passo 2:

If point A is moved close to charge 1 then :

The distance between charge 1 and point A (r1A) = ¼ a

The distance between charge 2 and point A (r2A) = ¾ a

The electric field produced by charge +Q al punto A :

Electric field –a problems and solutions 4

Test charge is positive and charges 1 is positive so that the direction of the electric field points to charge 2.

The electric field produced by charge -Q at point A :

Electric field – problems and solutions 5

Test charge is positive and charges 2 is negative so that the direction of the electric field points to charge 2.

La risultante del campo elettrico nel punto A:

Electric field – problems and solutions 6

2. Due cariche qA = 1 μC e qB = 4 μC are separated by a distance of 4 cm (k = 9 x 109 Nm2 C-2). What is the magnitude of the electric field at the center between qA e qB.

Conosciuto :

Carica A (qA) = 1 μC = 1 x 10-6 C

Carica B (qB) = 4 μC = 4 x 10-6 C

k = 9 x 109 Nm2 C-2

Distanza tra le cariche A e B (rAB) = 4 cm = 0.04 metri

Distance between charge A and the center point (rA) = 0.02 metris

Distance between charge B and the center point (rB) = 0.02 metris

Conosciuto: L'entità del campo elettrico

soluzione:

The electric field produced by charge A at the center point :

Electric field – problems and solutions 7

Test charge is positive and charges A is positive so that the direction of the electric field points to charge B.

The electric field produced by charge B at the center point :

Electric field – problems and solutions 8

Test charge is positive and charge B is positive so that the direction of the electric field points to charge A.

The resultant of the electric field at the center point :

EA ed EB have the opposite direction.

E = EB - EA = 9 x 107 - 2.25 x 107 = 6.75 x 107 NC-1

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3. According to figure below, where the point P is located so that the magnitude of the electric field at point P = 0 ? (k = 9 x 109 Nm2C-2, 1 μC = 10-6 C)

Electric field – problems and solutions 9

Soluzione

If point P located at the left of Q1; the electric field produced by Q1 on point P points to leftward (lontano dalla Q1) and the electric field produced by Q2 on point P points to rightward (point to Q1). The direction of the electric field is opposite so that the electric field at point P = 0.

Conosciuto :

Q1 = +9 μC = +9 x 10-6 C

Q2 = -4 μC = -4 x 10-6 C

k = 9 x 109 Nm2C-2

Distanza tra la carica 1 e la carica 2 = 3 cm

Distanza tra Q1 and point P (r1P) = A

Distanza tra Q2 e punto P (r2P) = 3 + a

Ricercato : Position of point P

soluzione:

Point P located at leftward of Q1.

The electric field produced by Q1 al punto P:

Electric field – problems and solutions 10

Test charge is positive and Q1 is positive so that the direction of the electric field to leftward.

The electric field produced by Q2 al punto P :

Electric field – problems and solutions 11

Test charge is positive and Q2 is negative so that the direction of the electric field to rightward.

Resultant of the electric field at point A :

Electric field – problems and solutions 12

Use quadratic formula to find a :

Electric field – problems and solutions 12

Distanza tra Q2 e punto P (r2P) = 3 + a = 3 – 1.8 = 1.2 cm or 3 + a = 3 – 9 = -6 cm.

Distanza tra Q1 e punto P (r1P) = a = -9 cm or -1.8 cm.

Point P located at 1.2 cm rightward of Q2.

4. Charge q3 located at 5 cm rightward of q2, as shown in the figure below. What is the magnitude of the electric field at charge q3 (1 µC = 10-6 C).

Electric field – problems and solutions 14

soluzione:

Electric field – problems and solutions 15

Charge q3 is positive so that the direction of the electric field at charge q3 points to the minus charge q2 (E2) and away from the plus charge q1 (E1). The resultant of the electric field is the sum of the electric field E1 ed E2.

Conosciuto :

Charge q1 = 5 µC = 5 x 10-6 Coulomb

Charge q2 = 5 µC = -5 x 10-6 Coulomb

Distance between charge q1 and charge q3 (r1) = 15 cm = 0.15 m = 15 x 10-2 metri

Distance between charge q2 and charge q3 (r2) = 5 cm = 0.05 m = 5 x 10-2 metri

k = 9 x 109 Nm2 C-2

Ricercato : The electric field at charge q3

soluzione:

The electric field 1 :

E1 = kq1 / r12

E1 = (9 x 109)(5 x 10-6) / (15 x 10-2)2

E1 = (45 x 103) / (225 x 10-4)

E1 = 0.2 x 107 N / C

The electric field 2 :

E2 = kq2 / r22

E2 = (9 x 109)(5 x 10-6) / (5 x 10-2)2

E2 = (45 x 103) / (25 x 10-4)

E2 = 1.8 x 107 N / C

Resultant of the electric field :

The resultant of the electric field at charge q3 :

E = E2 - E1 = (1.8 x 107) – (0.2 x 107) = 1.6 x 107 N / C

The direction of the electric field points to leftward (same direction as E2).

5. Two charges are separated as shown in figure below. What is the electric field at point P (k = 9 x 109 Nm2 C-2)

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Soluzione

Electric field – problems and solutions 16

Conosciuto :

Charge qA = +2.5 °C

Charge qB = -2°C

Distance between charge qA e punto P (rA) = 5 metri

Distance between charge qB e punto P (rB) = 2 metri

k = 9 x 109 Nm2 C-2

Ricercato : the magnitude of the electric field at point P.

soluzione:

The electric field A :

EA = kqA / rA2

EA = (9 x 109)(2.5) / (5)2

EA = (22.5 x 109) / 25

EA = 0.9 x 109 N / C

The electric field B :

EB = kqB / rB2

EB = (9 x 109)(2) / (2)2

EB = (18 x 109) / 4

EB = 4.5 x 109 N / C

Resultant of the electric field :

Resultant of the electric field at point P :

E = EB – EA = (4.5 – 0.9) x 109 = 3.6 x 109 N / C

The direction to leftward (same direction as EB).

6. Two charges Q1 = -40 µC and Q2 = +5 µC as shown in figure below (k = 9 x 109 nm2.C-2 and 1 µC = 10-6 C),. What is the magnitude of the electric field at point P.

Electric field – problems and solutions 17

Conosciuto :

Charge q1 = -40 µC = -40 x 10-6 C

Charge q2 = +5 µC = +5 x 10-6 C

Distanza tra q1 e punto P (r1) = 40 cm = 0.4 m = 4 x 10-1 m

Distanza tra q2 e punto P (r2) = 10 cm = 0.1 = 1 x 10-1 m

k = 9 x 109 Nm2 C-2

Ricercato : the magnitude of the electric field at point P.

soluzione:

The electric field 1 :

E1 = kq1 / r12

E1 = (9 x 109)(40 x 10-6) / (4 x 10-1)2

E1 = (360 x 103) / (16 x 10-2)

E1 = 22.5 x 105 N / C

The electric field 2 :

E2 = kq2 / r22

E2 = (9 x 109)(5 x 10-6) / (1 x 10-1)2

E2 = (45 x 103) / 1 x 10-2

E2 = 45 x 105 N / C

Resultant of the electric field :

The resultant of the electric field at point P :

E = E2 – E1 = (45 – 22.5) x 105 = 22.5 x 105 N / C

E = 2.25 x 106 N / C

The direction of the electric field points to rightward (same direction as E2).

7. Two point charges as shown in figure below.

Electric field – problems and solutions 18

Where is point P located so that the magnitude of the electric field at point P = 0. k = 9.109 Nm2.C-2, 1 µC = 10-6 C.

Conosciuto :

Carica 1 (q1) = -9 µC = -9.10-6 Coulomb

Carica 2 (q2) = 1 µC = 1.10-6 Coulomb

Distanza tra q1 e q2 (r12) = 1 cm

k = 9.109 Nm2.C-2

Ricercato : Position of point P

soluzione:

E1 = the magnitude of the electric field produced by q1 at point P

La direzione di E1 a q1 perché q1 è negativo.

E2 = the magnitude of the electric field produced by q2 at point P

La direzione di E2 lontano dalla q2 perché q2 è positivo

Electric field – problems and solutions 19

Electric field – problems and solutions 20

The electric field at point = 0.

Utilizzare la formula quadratica:

Electric field – problems and solutions 22

Distance between P and q2 = x = 0.5 cm.

Point P located at 0.5 cm rightward q2 or 0.25 cm leftward q1.

8. According to the figure below, if the magnitude of the electric field at point P = k Q/x2, then x = ….

Electric field – problems and solutions 23

Conosciuto :

EP = k Q / x2

Ricercato : x

soluzione:

Electric field – problems and solutions 24

E2 = The magnitude of the electric field at point P by charge +32Q

r2 =Distance between charge +32Q and point P = a + x

Electric field – problems and solutions 25

Utilizzare la formula quadratica:

Electric field – problems and solutions 26

  1. Cos'è un campo elettrico?
    • Risposta: An electric field is a region around a charged object where electric forces can be experienced by other charged objects. It is a vector field, meaning it has both magnitude and direction at every point.
  2. How is the strength of an electric field determined?
    • Risposta: The strength or magnitude of an electric field at a point is defined as the force experienced by a positive test charge placed at that point, divided by the magnitude of the test charge itself: .
  3. How does the electric field due to a point charge vary with distance?
    • Risposta: The electric field due to a point charge is inversely proportional to the square of the distance from the charge. The relationship is given by Durante la serata, is Coulomb’s constant.
  4. What is the direction of the electric field due to a positive charge?
    • Risposta: The electric field due to a positive charge points radially outward from the charge. For a negative charge, the field points radially inward, towards the charge.
  5. How can you represent electric fields graphically?
    • Risposta: Electric fields can be represented graphically using field lines (or lines of force). The direction of the field at any point is tangent to the field line at that point, and the density of the lines indicates the magnitude of the field.
  6. What happens to the electric field inside a conductor in electrostatic equilibrium?
    • Risposta: Inside a conductor in electrostatic equilibrium, the electric field is zero. This is because any external field causes free electrons in the conductor to redistribute, cancelling the external field inside.
  7. How do electric field lines behave near a sharp edge of a conductor?
    • Risposta: Near a sharp edge or pointed tip of a conductor, the electric field lines are more concentrated, leading to a stronger electric field in that region. This is the basis for the operation of devices like the lightning rod.
  8. How do superposition principles apply to electric fields?
    • Risposta: The electric field due to multiple charges at a point is simply the vector sum of the electric fields due to each individual charge. This is known as the superposition principle.
  9. How is the work done by an external agent related to the electric field when moving a charge within the field?
    • Risposta: The work done by an external agent in moving a charge from one point to another in an electric field is equal to the negative of the change in electric potential energy, which is Durante la serata, is the change in electric potential.
  10. Can electric field lines ever cross each other?

    • Risposta: No, electric field lines cannot cross each other. If they did, it would imply that at the point of intersection, there are two different directions of the electric field, which is not possible.