An ion accelerated through a potential difference of 300.00 V has its potential energy decreased by potential energy of 9.60 10-17 J. Calculate the charge on the ion.
Q: The work done by an external force to move a -6.60 μC charge from point A to point B is 1.80×10−3 J…
A:
Q: A spherical conductor with a 0.123 m radius is initially uncharged. How many electrons should be…
A:
Q: Location A is 2.40 m to the right of a point charge q. Location B lies on the same line and is 5.60…
A:
Q: The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 11.2 V and b = -6.10…
A: In the given question, Potential between x - 0 and x = 6m is given by…
Q: e potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 17.2 V and b = -4.50…
A: Given that-- V = a + bx Where a = 17.2 V and b = -4.50 V/m Question ❓ At some value of x , (a) find…
Q: 12 3 10 8. (w:
A:
Q: A 5.80 µF , parallel-plate, air capacitor has a plate separation of 5.00 mm and is charged to a…
A:
Q: An electric field does 2.13 x 10³ eV of work on a helium nucleus of charge 3.20 x 10-19 C. Find the…
A: Given value--- An electric field does 2.13 x 103 eV of work on a helium nucleus of charge 3.20 x…
Q: As a +6.2 μC charge moves along the æ axis from = 0 to x = 0.70 m, the electric potential it…
A: Given that, The value of charge is q=+6.2 μC. This charge moves…
Q: The work done by the electric field as the charge, +2.0x10-6 C, moves from A to B is +5.0x10-5 J.…
A: Potential difference of A and B is find by the VB-VA=-WABq0 Given Charge, q0=2.0×10-6C Work done by…
Q: Two large, horizontal metal plates are separated by 0.020 m. A small plastic sphere is suspended…
A:
Q: An electrostatic paint sprayer has a 0.150 m diameter metal sphere at a potential of 10.0 kV that…
A:
Q: A uniform electric field of magnitude 1.0 x 102 NC-1 exists between 2 conducting plates, one of…
A: The objective of the question is to calculate the potential difference between the plates, the…
Q: I need help with this here problem. Please help A proton moves at 1.9x10^7 m/s against a uniform…
A: A proton is accelerated in the direction of the electric field. If it travels against the electric…
Q: The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 13.0 V and b = -6.30…
A: a) Calculate the potential at x = 0. V(x=0)=a+bxV(x=0)=(13.0 V)+(−6.30 V/m)(0 m)V(x=0)=13.0 V…
Q: A charge Q creates an electric potential of +(1.2400x10^2) V at a distance of (1.39x10^1) cm. What…
A: Electric potential (V) = 124 volts distance (d) = 13.9 cm = 0.139 m
Q: A small spherical object carries a charge of 2.50 nC. (Note: Assume a reference level of potential V…
A: Charge on object Q = 2.50 nC = 2.50 * 10-9 C We need to find the distance from center of this object…
Q: A charge of 5.71 nC is at the origin and a second charge -5.00 nC is at x=.037 m, y=0. Find the…
A: To answer: The position between the charges along the x-axis where the potential due to these two…
Q: 28 x 10-6 C point charge is held at rest within a uniform Electric field of 53.1 N/C directed in the…
A: The Electric field at a point is defined as the force per unit charge acting on the charged particle…
Q: (a) Find the electric potential at A. kV (b) Find the electric potential at B. kV (c) Find the…
A:
Q: A proton (mass = 1.67 10 Ka charge e 1 60 x 10-1C) moves from point A to point B under the influence…
A:
Q: A proton and an electron are in a constant electric field (360 V/m) between two oppositely charged…
A: Given: The electric field is 360 Vm. The distance between the two plates is 30.0 cm. Introduction:…
Q: The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 14.0 V and b = -5.50…
A:
Q: n the figure, the charge q=0.880×10^−9C. A) Find the electric potential at x=0.450m Express your…
A:
Q: A charge of 6.60 nC is at the origin and a second charge -5.00 nC is at x = 0.016 m, y =0. Find the…
A:
Q: The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 15.8 V and b = -6.70…
A:
Q: A point charge of 4.15x10^-6C and mass 75.6x10^-8 kg is in a uniform electric field of 477 N/C i.…
A: Given that:q=4.15×10-6 Cm=75.6×10-8 kgE=477 N/Cu=0 m/sv=86.6 m/s
Q: The potential difference between a storm cloud and the ground is 2.47 x 10° V. If a bolt carrying 5…
A: Given data: Potential difference (ΔV) = 2.47×108 V Charge (q) = 5 C Required: Magnitude of the…
Q: Consider a point charge of value 59 × 10-5 C. Part (a) At what distance from the 59 × 10-5 C…
A: Given that,q=59×10-5 CV=68 Vfor part b,distance = r= 6m
Q: A bare helium nucleus has two positive charges and a mass of 6.64 10-27 kg. (a) Calculate its…
A: Mass of helium nucleus m =6.64×10-27 kg The speed of helium nucleus v=4.40%c The speed of light…
An ion accelerated through a potential difference of 300.00 V has its potential energy decreased by potential energy of 9.60 10-17 J. Calculate the charge on the ion.
Given,
Potential difference = 300.00 V
Potential energy =9.60*10-17 J
Trending now
This is a popular solution!
Step by step
Solved in 3 steps
- A bare helium nucleus has two positive charges and a mass of 6.64 x 10-27 kg. (a) Calculate its kinetic energy in joules at 7.20% of the speed of light. (b) What is this in electron volts? eV (c) What voltage would be needed to obtain this energy? VThe potential in a région between x = 0 and x = 6.00 m is V = a + bx, where a = 20.0 V and b = -6.50 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. V Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. magnitude V/m direction ---Select--- C Determine the magnitude and direction of the electric field at x = 3.00 m. magnitude V/m direction ---Select--- Determine the magnitude and direction of the electric field at x = 6.00 m. magnitude V/m direction ---Select---Two point charges with values 3.4 uC and 6.6 uC are separated by 0.2 m. What is the electrical potential energy of this two-charge system? O 2.86 J O 7.15 J 9.56 J 3.75 J O 1.01 J 25
- A moving particle encounters an external electric field that decreases its kinetic energy from 9140 eV to 5710 eV as the particle moves from position A to position B. The electric potential at A is -63.0 V, and that at B is +10.0 V. Determine the charge of the particle. Include the algebraic sign (+ or -) with your answer.An electrostatic paint sprayer has a 0.25 m diameter metal sphere at a potential of 25.0 kV with respect to the ground that repels paint droplets onto a grounded object. Part (a) What charge is on the sphere, in coulombs? Q = Part (b) What charge, in coulombs, must a 0.12 mg drop of paint have in order to arrive at the object with a speed of 10.0 m/s, starting from rest? q =The work done by an external force to move a -8.60 μC charge from point a to point b is 1.90x10-³ J. Part A If the charge was started from rest and had 4.77x10-4 J of kinetic energy when it reached point b, what must be the potential difference between a and b? ——| ΑΣΦ Vb - V₂ = ? V
- How far from a -6.70 μC point charge must a +2.50 μC point charge be placed in order for the electric potential energy of the pair of charges to be -0.600 J? (Take the energy to be zero when the charges are infinitely far apart.) Express your answer with the appropriate units. d = O μA Value Units ?The two charges in the figure below are separated by a distance a = 2.50 cm, and Q = +5.60 d d. (a) Find the electric potential at A. |kV (b) Find the electric potential at B. |kV (c) Find the electric potential difference between B and A. Need Help? Read ItA proton (mass = 1.67 × 10-27 kg, charge = 1.60 × 10-19 C) moves from point A to point B under the influence of an electrostatic force only. At point A the proton moves with a speed of 50 km/s. At point B the speed of the proton is 92.9 km/s. Determine the potential difference VB -VA (in units of А volts). Select one: O A. 24.02 О в. 31.38 Ос. -50.38 O D. -31.99 O E. 2.12
- The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 13.2 V and b = -3.50 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. V Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. V/m magnitude direction --Select--- Determine the magnitude and direction of the electric field at x = 3.00 m. magnitude V/m direction ---Select--- ✓ Determine the magnitude and direction of the electric field at x = 6.00 m. magnitude V/m direction ---Select--- ✓In the figure, the charge q=3.11×10^−9C. A)Find the electric potential at x=0.650m Express your answer using appropriate units. B) Find the value of x between 0 and 1.00 m where the electric potential is zero. Express your answer using appropriate units.