5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It can be charged until the electric field at the surface reaches the dielectric strength of dry air (3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an electron, becomes a positive ion, and is accelerated away from the globe. Assuming no collisions, how fast will the nitrogen ion be moving when it reaches infinity?

5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It can be charged until the electric field at the surface reaches the dielectric strength of dry air (3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an electron, becomes a positive ion, and is accelerated away from the globe. Assuming no collisions, how fast will the nitrogen ion be moving when it reaches infinity?

Related questions

Q: electron is released from rest in a uniform electric field with a magnitude of 5 V/m. What is the…

Q: Dry air will support a maximum electric field strength of about 2.0 x 10 V/m. Above that value, the…

A: The work done by the electric field to move a positive charge q from higher potential to lower…

Q: 1. In a particular region, the electric potential is given by V=-xyz + 4xy What is the electric…

Q: Problem 5: Two oppositely charged, parallel t to the positively charged plate. A small gap in e…

Q: 2. Electric potential of a region in a xy plane is given by V = -Ax²y² where A = 0.5 V /m*. a. Find…

A: Electric field at a point is negative gradient of potential

Q: B. At a point due to a point charge, the values of electric field intensity and potential are 48 N…

Q: 3. An electron enters a parallel plate apparatus, as shown, providing a uniform electric field of…

Q: A metal sphere (in electrostatic equilibrium) carries an excess positive charge. Location A is at…

Q: 5. Suppose an electron is released from rest in a uniform electric field whose magnitude is 5.9×103…

A: Here is the step-by-step explanation Part (a): Potential Difference:Step 1: Use formula:The…

Q: A proton and an electron are separately placed in a uniform electric field created inside a pair of…

A: The correct choice is option (2).

Q: 8. A conducting potential shell having inner radius a and outer radius b carries a net charge Q. If…

Q: the electric Potential V at r = 0.13 m

A: Given, The radius of the spherical surface is R = 0.24 m The charge on the spherical surface is…

Q: 1. Four charges of equal magnitude Q are placed on the corners of a square with length x. Determine…

A: To answer: (a) The potential at the center (b) the work done to bring a charge Q into the center.

Q: 5. The electric field between two oppositely charged, parallel, conducting plates separated by a…

A: Electric field Plate separation distance A) Potential energy B) Surface Charge density C)…

Q: A cube has 7 protons at 7 of its corners and 1 electron at the other. How much work is required to…

Q: 12. Two large, parallel, metal plates carry opposite charges of equal magnitude. They are separated…

Q: A charged particle of mass m%3D starts from rest from plate #1 and accelerates towards plate #2. See…

Q: 8. An electron has been placed at the origin. The grid spacing is 1 Angstrom per small square this…

A: Given that:- An electron is placed at origin...

Q: a) Calculate the area of a simple parallel-plate 5F capacitor. Assume th the plates are separated by…

Q: 1. Four charges of equal magnitude Q are placed on the corners of a square with length r. Deterımine…

A: Four charges of equal magnitude Q are placed on the corners of a square with length z. Determine the…

Q: 5. Calculate the electrostatic energy of a dielectric ball (E = 3) charged by volume with a density…

A: Given, Dielectric constant εr=3Charge density ρ=350 nC/m3Radius of Ball R=10 cm

Q: 4. A +30 µC charge is placed 32 cm from an identical +30 µC charge. How much work would be required…

Q: 1. Two charged parallel metal plates are separated by a distance d and a potential difference of V…

A: Given, Separation between the metal plates =d Potential difference = Vab a. The electric field…

Q: For a spherical surface with radius 0.16 m and is charged by 17 nC, the electric Potential V at r =…

Q: 8. A charge (q = 5 mC) is released from rest in an electric field (vector) of E =2.5* N/(mu*C) i hat…

A: 1) 37.5 J 2) 7.071 m/sExplanation:

Q: Consider a 20μC spherical positive charge distribution of radius 10 cm (0.1 m). Using Microsoft…

A: Hint : use the equation of electric field and potential and treat spherical charge as point charge…

Q: 5. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a =…

A: System of three charges

Q: An electron enters a parallel plate apparatus, as shown, providing a uniform electric field of…

Q: The electric field between the plates of a paper-separated (k= 3.75) capacitor is 8.24 x 10 V/m. The…

Q: 1.Dry air will break down if the electric field exceeds about 3.0×10^6V/m. What amount of charge…

A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…

Q: 1. A 20 µF capacitor has a potential difference of 9.0 V applied across its plates. If the potential…

Q: A moving charge, q =+ 3µC, takes a curved path (see broken curve with arrow) from point A through…

Q: The ions have a charge of +2e and a speed of 148 km/s. When B has a value of 840 mT, the ions are…

Q: 1. Consider that the earth and the atmosphere form a parallel plate of charges. Where the electric…

A: As it is a multiple question. I answer the first question. Please resubmit the second question…

Q: 8. The space between the plates of a flat capacitor is filled with two layers of dielectrics: glass…

A: Concept used: Electric field is gradient of potential difference across the plates. Note: Out of…

Q: 13. A small 4.0 g ball with a +0.208 C charge is released at rest from a positively-charged plate as…

Q: 14. The plates of a parallel-plate capacitor are 4.50 mm apart, and each carries a charge of…

Q: 3. Consider the electric field between two parallel plates to be uniform, i.e., same magnitude and…

Q: 2. .57 by a stiff spring inside the sphere. If the change in the tension in the spring corresponding…

A: The charges enclosed on each hemisphere is Qenc. Radius of the sphere=RDielectric breakdown strength…

Q: Your car can build up a significant static electric charge while driving at a high rate of speed due…

Question

5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It
can be charged until the electric field at the surface reaches the dielectric strength of dry air
(3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an
electron, becomes a positive ion, and is accelerated away from the globe. Assuming no
collisions, how fast will the nitrogen ion be moving when it reaches infinity?

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business