A uniform electric field of magnitude 3.90 N/C is directed along the +x-axis. If a 2.30 uC charge moves from (1.00, 0) m to (2.30, 0) m in this field, determine the following. (Include the sign of the value in your answer.) (0) the work done by the electric force (b) the change in the electric potential energy of the particle (c) the electric potential difference between the particle's initial and final points
Q: Over a certain region of space, the electric potential is V = 7x - 6x²y + 8yz². (a) Find the…
A:
Q: What is the magnitude of the electric field at the point (4.40 î - 9.10 ĵ + 4.40 k̂) m if the…
A: Given: Point for electric field,P=4.40 i^,-9.10 j^,4.40 k^ Electric potential, V=8.80 xyz2…
Q: Three point charges q1 = +2.7pC, q2 = -3.4uC and q3 = -1.6pC initially are infinitely far %3D apart.…
A:
Q: A uniform electric field of magnitude 414 N/C pointing in the positive x-direction acts on an…
A: Given: Electric field, E = 414 N/C mass,m = 9.1 x 10-31 kg distance,d = 3 cm
Q: A point charge of 5.7 μC is located in a uniform electric field of 30 N/C. You move the charge, at…
A:
Q: A small object with a charge of q-10.0 C travels from the origin to the point (x, y)-(20.0 cm, 50.0…
A:
Q: A uniform electric field of magnitude 358 N/C pointing in the positive x-direction acts on an…
A: Answer:- Given Electric field (E) = 358 N/C Charge of electron (q) = 1.6 × 10-19 C Mass of…
Q: Four identical charged particles (q = +17.0 µC) are located on the corners of a rectangle as shown…
A: Given The magnitude of the charge is q = 17 µC = 17 x 10-6 C. The width of the rectangle is W = 12…
Q: A uniform electric field of magnitude 367 N/C pointing in the positive x-direction acts on an…
A: The charge of an electron is 1.6×10-19C. Now the electric field and charge can be used to calculate…
Q: A uniform electric field of magnitude 378 N/C pointing in the positive x-direction acts on an…
A: Given data The electric field is given as E = 378 N/C. The distance traveled by the electron is d =…
Q: Oppositely charged parallel plates are separated by 6.06 mm. A potential difference of 600 V exists…
A:
Q: A small object with a charge of q = 15.0 μC travels from the origin to the point (x, y) = (20.0 cm,…
A: Given data: The charge is q=15×10-6 C The position in vector form is d→=0.2i+0.5j m The unifor…
Q: total electric field E and the potential V at point P 5 (10,10,0)cm. Position vectors are given in…
A:
Q: A graph of the x component of the electric field as a function of x in a region of space is shown in…
A:
Q: A uniform electric field of magnitude 280 V/m is directed in the positive x direction. A +14.0 µC…
A:
Q: A particle has a charge of +1.33 μC and moves from point A to point B, a distance of 0.200 m. The…
A:
Q: An electron with charge −1.60×10−19 C moves a distance of 3.17 mm in the negative x direction in a…
A: Given data: Charge on electron, qe=-1.60×10-19 C Distance moved by the electron, d=-3.17 mm =…
Q: Particle A has a charge of 10HC, a mass of 0.001kg, and starts at rest. The initial electric…
A:
Q: . What is the translational speed of the particle at point A?
A:
Q: charge of 56.0 nC is placed in a uniform electric field that is directed vertically upward and that…
A: Concept Use formula of work done by force w = f.d Cos (theta) Replace f = qE And solve
Q: A particle with a charge of q = 12.0 μC travels from the origin to the point (x, y) = (20.0 cm, 50.0…
A: The objective of the question is to find the change in the electric potential energy and the…
Q: A graph of the x component of the electric field as a function of x in a region of space is shown in…
A:
Q: A proton is acted on by an uniform electric field of magnitude 443 N/C pointing in the positive x…
A: Given that:- Electric field is 443N/C along + x axis
Q: A proton is acted on by an uniform electric field of magnitude 353 N/C pointing in the negative y…
A:
Q: Three charged particles are located at the corners of an equilateral triangle (side = 0.500 m) as…
A:
Q: An electron moving parallel to the x axis has an initial speed of 3.70 × 10b m/s at the origin. Its…
A:
Q: A uniform electric field of magnitude 392 N/C pointing in the positive x-direction acts on an…
A: Given that, Electric field, E = 392 N/C pointing in the positive x-direction The distance moved by…
Q: a uniform electric is indicated by electric line. the electric magnitude is 150 n/c. if the object…
A: Given that electric field E = 150 N/C d = 0.25m
Q: A positive charge of 28 nC is placed in a uniform electric field that is directed vertically…
A:
Q: A particle with a charge of q = 14.0 μC travels from the origin to the point (x, y) = (20.0 cm, 50.0…
A:
Q: A uniform electric field of magnitude 410 N/C pointing in the positive x-direction acts on an…
A:
Q: Earth has an electric charge of approximately −5.7×105C−5.7×105C distributed relatively uniformly on…
A: The electric field (E) at the surface of a charged sphere is given by the formula: E = k Q / r^2…
Q: What is the magnitude of an electric field at the point (3.00 i – 2.00 j + 4.00 k) m, if the…
A:
Q: A particle with a charge of q = 12.0 µC travels from the origin to the point (x, y) = (20.0 cm, 50.0…
A:
Q: A small object with a charge of q = 12.0 µC travels from the origin to the point (x, y) = (20.0 cm,…
A: SOlution: Given that q = 12 micro C distance travel (0,0) to (20,50) E=270 i V/m
Q: A particle has a charge of +1.76 μC and moves from point A to point B, a distance of 0.201 m. The…
A: Given,Charge of particle, q = 1.76×10-6 C Distance moved, d = 0.201 mDifference in electric…
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- A particle with a charge of - 2.47 nC is in a uniform electric field directed to the right. It is released from rest and moves to the right. After it has moved 3 cm, its kinetic energy is found to be - 5 µJoules. (a) What work was done by the electric force? (b) What is the potential of the starting point with respect to the end point? (c) Determine the magnitude of the electric field.Inside a particular radiation therapy device, there is a uniform electric field with a magnitude 385 N/C pointing in the positive x-direction. An electron, initially at rest, moves a distance of 3.60 cm in this field. (a) How much work (in J) does the electric field do on the electron? J (b) What is the change in potential energy (in J) of the entire system (radiation therapy device plus electron)? J (c) What is the velocity (in m/s) of the electron after it moves the 3.60 cm distance? m/s magnitude direction ---Select--- ✓Oppositely charged parallel plates are separated by 4.90 mm. A potential difference of 600 V exists between the plates. (a) What is the magnitude of the electric field between the plates? N/C (b) What is the magnitude of the force on an electron between the plates? N (c) How much work must be done on the electron to move it to the negative plate if it is initially positioned 2.84 mm from the positive plate?
- A uniform electric field of magnitude 270 V/m is directed in the positive x direction. A +14.0 µC charge moves from the origin to the point (x, y) = (20.0 cm, 50.0 cm). (a) What is the change in the potential energy of the charge field system?(b) Through what potential difference does the charge move?A uniform electric field of magnitude 356 N/C pointing in the positive x-direction acts on an electron, which is initially at rest. The electron has moved 3.60 cm. (a) What is the work done by the field on the electron? J(b) What is the change in potential energy associated with the electron? J(c) What is the velocity of the electron? magnitude m/s direction ---Select--- +x -x +y -yA particle with a charge of q = 11.0 µC travels from the origin to the point (x, y) = (20.0 cm, 50.0 cm) in the presence of a uniform electric field E = 250î V/m. Determine the following. (a) the change in the electric potential energy (in J) of the particle-field system (b) the electric potential difference (in V) through which the particle moves V
- A proton is acted on by an uniform electric field of magnitude 233 N/C pointing in the negative x direction. The particle is initially at rest. (a) In what direction will the charge move? -x direction A (b) Determine the work done by the electric field when the particle has moved through a distance of 3.55 cm from its initial position. J (c) Determine the change in electric potential energy of the charged particle. (d) Determine the speed of the charged particle. 3.85 Consider applying the conservation of energy. m/sAn ionized nitrogen molecule (N₂+) at point A has charge +e and moves at 1.92 × 10³ m/s in the positive x-direction. A constant electric force in the negative x-direction slows the molecule to a stop at point B, a distance of 0.796 mm past A on the > 2 axis. Calculate the x-component of the electric field and the potential difference between points A and B. (The mass of a nitrogen molecule is 4.65 x 107 kg and the fundamental charge is e = 1.60 × 10−¹9 C.) -26 HINT (a) the x-component of the electric field (in V/m) 672.96482 X V/m (b) the potential difference between points A and B (in V) VA proton is acted on by an uniform electric field of magnitude 203 N/C pointing in the negative y direction. The particle is initially at rest. (a) Determine the work done by the electric field when the particle has moved through a distance of 3.65 cm from its initial position.(b) Determine the change in electric potential energy of the charged particle. (c) Determine the speed of the charged particle.
- A proton is acted on by an uniform electric field of magnitude 363 N/C pointing in the negative y direction. The particle is initially at rest. (a) In what direction will the charge move? (b) Determine the work done by the electric field when the particle has moved through a distance of 2.95 cm from its initial position. (in Joules)(c) Determine the change in electric potential energy of the charged particle. (J)(d) Determine the speed of the charged particle. (m/s)A uniform electric field of magnitude 280 V/m is directed in the negative y direction as shown in the figure below. The coordinates of point A are (-0.350, -0.400) m, and the coordinates of point B are (0.250, 0.450) m. Calculate the electric potential difference VB − VA (in V) using the dashed-line path.A uniform electric field of magnitude 4.50 N/C is directed along the +x-axis. If a 2.95 μC charge moves from (1.00, 0) m to (2.31, 0) m in this field, determine the following. (Include the sign of the value in your answer.) (a) the work done by the electric force J (b) the change in the electric potential energy of the particle (c) the electric potential difference between the particle's initial and final points