A particle of mass 2 x10-16 kg and charge -3 x10-6 C is lauched horizontally between...
A particle of mass 2 x10-16 kg and charge -3 x10-6 C is lauched horizontally between two charged plates with a speed 6 x105 m/s. Set the voltage 12 Volts and the distance between the plates is 5 cm. The electric field between the plates can be found from E = Voltage/distance between plates, 240 N/C. The plates are 10 cm long.
What is the final velocity of the particle, just as it exits the plates? Give your answer in polar form.
Homework Answers
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A particle of mass 2 x10-16 kg and charge -3
x10-6 C is lauched horizontally between...
When the particle exits the region between the plates, what will be the magnitude of its...
When the particle exits the region between the plates, what
will be the magnitude of its vertical displacement from its entry.
( in mm)
lass Management | Help ectrostatic Charge Begin Date: 1/17/2018 4:01:00 PM-Due Date: 1/25/2018 11: (1000) Problem 2: A particle with charge q = +4e and mass m-76x 10-26 kg is injected horizontally with speed 1.9x106 m/s into the region between two parallel horizontal plates. The plates are 26 cm long and 1.3 cm apart. The particle...
7. An electron with a charge of -1.60 x 10-19 C and a mass of 9.10...
7. An electron with a charge of -1.60 x 10-19 C and a mass of 9.10 x 10-31 kg passes between two charged metal plates. The electric field in the region between the plates is directed downward with a magnitude of 100. N/C (see figure below). The electron enters the uniform electric field region between the plates with an initial horizontal velocity of 3.00 x 106 m/s, and traverses a horizontal distance of 4.00 cm before exiting the plates. (a)...
A still Alpha particle (charge amount 320*10 C. mass-6.65 10 kg) is placed between the two...
A still Alpha particle (charge amount 320*10 C. mass-6.65 10 kg) is placed between the two parallel plates below with electric potential difference of 2500 V. The distance between the two parallel plates is 5 om battery a Find the electric force acting on the alpha particle. (2 marks) b. Find the acceleration of the alpha particle. You may ignore its gravity force acting on it this time because it is too tiny in comparison to its electric force (2...
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q...
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q +3c 4.8x 10-19 C. Compare the magnitude of the electric repulsion between two π particles with that of gravitational attraction between them. Problem 3: Two equal charges 22 x 10-6 C are located at -0, y 0.3 m and z 0, V0.3 m respectively. What are the magnitude and direction of the total electric force that q1 and g2 exert on a third charge...
4. A still Alpha particle (charge amount-3.20x1010 C, mass-6.65x1027 kg) is placed between the two parallel...
4. A still Alpha particle (charge amount-3.20x1010 C, mass-6.65x1027 kg) is placed between the two parallel plates below with electric potential difference of 2500 V. The distance between the two parallel plates is 5 cm. battery a. Find the electric force acting on the alpha particle. (2 marks) b. Find the acceleration of the alpha particle. You may ignore its gravity force acting on it this time because it is too tiny in comparison to its electric force. (2 marks)
A negatively charged particle, which has a charge of -50 JC and a mass of 5x10-6...
A negatively charged particle, which has a charge of -50 JC and a mass of 5x10-6 kg, had entered a region of uniform magnetic field with velocity V in the positive x direction before it exited a second region of uniform electric field with velocity-V/2 in the negative x direction as shown in the figure below. if the magnetic field B=1 T and the distance d=10 cm, what was the initial speed V of the particle? v/2 E h x...
Question 9 The particle of mass, m0.00859 kg carries a net charge of q 0.0950 HC....
Question 9 The particle of mass, m0.00859 kg carries a net charge of q 0.0950 HC. The particle is placed halfway between two oppositely charged plates that have an electric potential diference 10 V across the two plates, as shown in the figure. The particle is then released from rest. Calculate the velocity of the charge when it strikes the negatively charged plate. +5 V -5 V Enter answer here m/s of 6 attempts used CHECK ANSWER
Question 9 The particle of mass, m 0.00859 kg carries a net charge of q 0.0950...
Question 9 The particle of mass, m 0.00859 kg carries a net charge of q 0.0950 μC. The particle is placed halfway between two oppositely charged plates that have an electric potential diference 10 V across the two plates, as shown in the figure. The particle is then released from rest. Calculate the velocity of the charge when it strikes the negatively charged plate. +5 V -5 V Enter answer here 0.09 m/s 0.09 m/s ae Your
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of...
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of 200 (m/s) enters into a magnetic field of 0.06 (T). The particle experiences a force of 1.01X105(N) in the magnetic field. A) Calculate the angle between velocity and magnetic field directions. B) Calculate the acceleration of charged particle in the magnetic field. C) Draw a diagram showing direction of velocity, magnetic field, force and the angle between velocity and magnetic field, using RHR-1 D)...
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of...
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of 200 (m/s) enters into a magnetic field of 0.06 (T). The particle experiences a force of 1.01x10$ (N) in the magnetic field. A) Calculate the angle between velocity and magnetic field directions. B) Calculate the acceleration of charged particle in the magnetic field. C) Draw a diagram showing direction of velocity, magnetic field, force and the angle between velocity and magnetic field, using RHR-1...
When the particle exits the region between the plates, what
will be the magnitude of its vertical displacement from its entry.
( in mm)
lass Management | Help ectrostatic Charge Begin Date: 1/17/2018 4:01:00 PM-Due Date: 1/25/2018 11: (1000) Problem 2: A particle with charge q = +4e and mass m-76x 10-26 kg is injected horizontally with speed 1.9x106 m/s into the region between two parallel horizontal plates. The plates are 26 cm long and 1.3 cm apart. The particle...
7. An electron with a charge of -1.60 x 10-19 C and a mass of 9.10 x 10-31 kg passes between two charged metal plates. The electric field in the region between the plates is directed downward with a magnitude of 100. N/C (see figure below). The electron enters the uniform electric field region between the plates with an initial horizontal velocity of 3.00 x 106 m/s, and traverses a horizontal distance of 4.00 cm before exiting the plates. (a)...
A still Alpha particle (charge amount 320*10 C. mass-6.65 10 kg) is placed between the two parallel plates below with electric potential difference of 2500 V. The distance between the two parallel plates is 5 om battery a Find the electric force acting on the alpha particle. (2 marks) b. Find the acceleration of the alpha particle. You may ignore its gravity force acting on it this time because it is too tiny in comparison to its electric force (2...
Problem 2: An imaginary particle π has mass m 5 x 10-27 kg and charge q +3c 4.8x 10-19 C. Compare the magnitude of the electric repulsion between two π particles with that of gravitational attraction between them. Problem 3: Two equal charges 22 x 10-6 C are located at -0, y 0.3 m and z 0, V0.3 m respectively. What are the magnitude and direction of the total electric force that q1 and g2 exert on a third charge...
4. A still Alpha particle (charge amount-3.20x1010 C, mass-6.65x1027 kg) is placed between the two parallel plates below with electric potential difference of 2500 V. The distance between the two parallel plates is 5 cm. battery a. Find the electric force acting on the alpha particle. (2 marks) b. Find the acceleration of the alpha particle. You may ignore its gravity force acting on it this time because it is too tiny in comparison to its electric force. (2 marks)
A negatively charged particle, which has a charge of -50 JC and a mass of 5x10-6 kg, had entered a region of uniform magnetic field with velocity V in the positive x direction before it exited a second region of uniform electric field with velocity-V/2 in the negative x direction as shown in the figure below. if the magnetic field B=1 T and the distance d=10 cm, what was the initial speed V of the particle? v/2 E h x...
Question 9 The particle of mass, m0.00859 kg carries a net charge of q 0.0950 HC. The particle is placed halfway between two oppositely charged plates that have an electric potential diference 10 V across the two plates, as shown in the figure. The particle is then released from rest. Calculate the velocity of the charge when it strikes the negatively charged plate. +5 V -5 V Enter answer here m/s of 6 attempts used CHECK ANSWER
Question 9 The particle of mass, m 0.00859 kg carries a net charge of q 0.0950 μC. The particle is placed halfway between two oppositely charged plates that have an electric potential diference 10 V across the two plates, as shown in the figure. The particle is then released from rest. Calculate the velocity of the charge when it strikes the negatively charged plate. +5 V -5 V Enter answer here 0.09 m/s 0.09 m/s ae Your
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of 200 (m/s) enters into a magnetic field of 0.06 (T). The particle experiences a force of 1.01X105(N) in the magnetic field. A) Calculate the angle between velocity and magnetic field directions. B) Calculate the acceleration of charged particle in the magnetic field. C) Draw a diagram showing direction of velocity, magnetic field, force and the angle between velocity and magnetic field, using RHR-1 D)...
Problem 3 A particle with charge of 2 (UC), mass of 2X10-20 (kg) and velocity of 200 (m/s) enters into a magnetic field of 0.06 (T). The particle experiences a force of 1.01x10$ (N) in the magnetic field. A) Calculate the angle between velocity and magnetic field directions. B) Calculate the acceleration of charged particle in the magnetic field. C) Draw a diagram showing direction of velocity, magnetic field, force and the angle between velocity and magnetic field, using RHR-1...
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