Ans: None of the above.
On connecting the two spheres by a conducting wire, the charges will be distributed equally between the two and they will eventually carry the same charge. But, remember that protons are confined inside the nucleus and they do not move!
Its the electrons which can make the movement. So, its an electron that will move from the left to the right, which is not mentioned in the given options. So, none of the above.
E PREP #1 due THUR 1/24 at 4pm Flow of charge b two spheres Timr Notes...
HW 1 due SUN 1/27 at 11pm Flow of two spheres . C)Timer□Notes harge between two spheres connnected ,Evaluatellyedtecké Before +4 Neutral Positive Two electrons move from left to right. Two protons move from right to left Two electrons move from right to left. One electron moves foom left to the right and one proton moves from right to l None of the above. Answer Tries 0/2 0 Type here to search
ts , , , s LECTURE PREP #1 due THUR 1/24 at 4pm » EM rne statics.problem Timer NotssEvaluaterint TYPE AND NUMBER OF CHARGES THAT MOVE BETWEEN A CHARGED SPH ERE AND A NEUTRAL SPHERE Choose the appropriate answer for the blanks in each sentence. Ball el is neutral and ball #2 has a charge of -4, When the two balls are connected by a conducting wire, then Tries 0/2 the two balls are Tries 0/2 Send Feedbad Post D...
Before +2 Neutral Positive Look at ELECTRONS A neutral sphere and a positive sphere are oriented as show above. If the two spheres are then connected by a conducting wire how do charges move? One proton moves from right to left. One proton moves from left to right. One electron moves from right to left One electron moves from left to right. Tries 0/2 Post Discussion ▲ 1/20/2019 0 Type here to search 5 3
course contents » » LECTURE PREP #8 due THUR 3/21 at 4pm » Choose true or false for each statement below about the uniform electric field shown above. 1he electrostatic force on a charge is weaker at point C than at point B potential ENE RGY difference between points A and B is independent of the the charge placed at these points. The kinetic energy of a positive charge moved from point B to point A will increase. The plate...
1. a.) An object carries a charge of -6.1 µC, while another carries a charge of -2.0 µC. How many electrons must be transferred from the first to the second object so that both objects have the same charge? b.) Suppose a thin conducting wire connects two conducting spheres. A negatively charged rod is brought near one of the spheres, the wire between them is cut, and the charged rod is taken away. Which one of the following is true?...
1. Which of the following electric charge transfers produces the same change in the total charge at points X and Y? I. +1 moved from point X to point Y II. -1 moved from point Y to point X III. +1 and -1 created simultaneously at point X a. I and I1 have the same effect. b. I and I1I have the same effect. c. II and III have the same effect. d. I, Il and III all have the...
Question 1 What is the net electric charge (in units of e) of an atom of lead (Z82)? qlead exact number, no tolerance Attempts: 0 of 5 used Question 2 Suppose a lithium atom (Z units of e? 3) has been singly ionized. What is the net electric charge of the resulting lithium ion in lithium exact number, no tolerance Attempts: 0 of 5 used Question 3 Suppose a lead atom (Z = 82) has been doubly ionized. What is...
E-kg/ Possibly useful equations: Electric force: F kqyr Force from E field: F gE Electric potential: - kg/r PE-V Mag Fld near wire: B - .I/2 FqBsine k=9x10" Nm2/C2 = 4x x 10-7 N/A 1) A. What is the electric potential 2.5x10 m away from a proton (e-1.6x10°C)? B. A helium nucleus contains two protons, with typical separation of 2.5x10m. What is the electric potential energy due to the two protons? 2) A bare helium nucleus (2 protons, 2 neutrons,...
Finding the charge to mass (e/m) ratio of the electron Often in physics, we look for ways to find fundamental physical constants. From the set-up demonstrated in class, we are able to find a monumental combination of two physical constants-the charge of an electron (e) and the mass of an electron (m). Since the charge of an electron (e) is well known through other experiments, we will use the ratio of charge to mass to find the mass of an...
Finding the charge to mass (e/m) ratio of the electron Often in physics, we look for ways to find fundamental physical constants. From the set-up demonstrated in class, we are able to find a monumental combination of two physical constants-the charge of an electron (e) and the mass of an electron (m). Since the charge of an electron (e) is well known through other experiments, we will use the ratio of charge to mass to find the mass of an...