Can you use my new numbers in the problem below to solve my problem? I know the textbook solution is -4, but I cant figure out how to plug in 3.95. Thanks!
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Can you use my new numbers in the problem below to solve my problem? I know...
Chapter 21, Problem 007 In the figure three charged particles lie on an x axis. Particles 1 and 2 are fixed in place. Particle 3 is free to move, but the net electrostatic force on it from particles 1 and 2 happens to be zero. If L23 -L12, what is the ratio q1/42 Number Units exact number, no tolerance
QUESTION 12 Find the ratio of q1/g2 for problem 21.7 of the text usingL23-1.8L12 ..7 In Fig. 21-23, three charged -L12-*-し23-뻐 particles lie on an x axis. Particles 1 and 2 are fixed in place. Particle 3 is free to move, but the net elec- Figure 21-23 Problems 7 and 40 trostatic force on it from particles 1 and 2 happens to be zero. If L23-L12, what is the ratio q/42? 9
MESSAGE MY INSTRUCTOR FULL SCREEN PRINTER VERSION Chapter 21, Problem 011 In the figure, the particles have charges a- 92-520 nc and particle 37 ㄧ-G4-97 nC, and distance a-si cm, what are the (a) x and (b) y components of the net electrostatic force on s.i cm. What are the (a) Number (b) Number Click if you would like to Show Work for this question: RD Units Units Question Attempts: 0 of 5 usedSAVE FOR LATER
ent MESSAGE MY INSTRUCTOR FULL SCREEN PRINTER VERSION - O 4 BACK NEXT Chapter 21, Problem 060 In the figure six charged particles surround particle 7 at radial distances of either d = 4.0 cm or 2d, as drawn. The charges the magnitude of the net electrostatic force on particle 7? +36e, 9 +144e, q7 +6e, with e 1.60 x 10-19 C. What is 2 7 5 Number Units the tolerance is +/-5% SHOW HINT GO TUTORIAL LINK TO TEXT
Interactive Exercises 21.09: An Application of Superposition In these exercises, let's return to the geometry of Fig. 21.8.1 (reproduced below). Particles #1 and #2 are fixed on the x axis with L = 5.00 m. The charges of the three particles are as follows q! = 1.50 μC.q2 2.00pC, and q3 = 3.50 μ . Our task is to find the initial acceleration of particle 3 (mass m = 0.0200 kg), which s free to move. The plan of attack...
Hi, I studied my textbook, and I'm so embressed about
something
Cuz, My textbook doesn't have solution about this problum.
I want to know how to solve it.
ps)I'm foregin student
so, write the numbers sharply please.
Have a good Day :)
Problem Consider the circuit shown in Fig. 1 (a) Qualitatively speaking, what does this circuit do to an ac signal? (b) Make a Bode plot of the amplitude ratio le1leil. (c) Add a Bode plot of the amplitude...
can you help me with this problem, since I don't know which
charges I have to consider in summing the different contributes of
the energy.
thanks
Question Hydrogen bonding is responsible for many of the unusual properties of water. A simplified A model represents a hydrogen bond as the electrostatic interaction of four point charges arranged along a straight line, as shown in the figure. Round your intermediate calculations and final answers to 4 significant figures. (a) Using this model,...
I know it can be done using Right Hand Rule, but don't know how
to solve it practically. Please help explain how to apply
right-hand rule actually. Thanks!
A small charged particle of charge q7.0 x 10-6C and mass m - 3.1 x 10-12kg is accelerated through a potential difference of 19.6V before it enters a region of uniform magnetic field as shown by the rectangle in the following figure. The particle is observed to travel in the semicircular path...
can
you do Part B with the new q2 value. i know the correct answer but
can you show how you get it bc i keep getting 20.7 degrees below
the axis. thanks
<Homework-1 Practice Problem 17.04 - Enhanced - with Feedback 2 of 6 • Comple Review I Constant Previous Answers Now we will consider a two-dimensional arrangement of charges (Figure 1). A point charge 2.0 C is located on the positive y axis at y=0.30 m, and an...
Please show work and use the numbers provided so that I can
compare it to my own work and figure out how to do it on my own.
Thank you.
Problem 15.43 What is her mass if the spring constant is 310 N/m? Express your answer to two significant figures and include the appropriate units Astronauts in space cannot weigh themselves by standing on a bathroom scale. Instead, they determine their mass by oscillating on a large spring. Suppose an...