I know it's a long question but if you could answer all parts of it that'd be awesome!!
a) The dipole will move towards left because a net force(electroctstatic) due to negative charge will be produced towards left.
b)
I know it's a long question but if you could answer all parts of it that'd...
How do you solve for these values of forces?
The depole will B) Using the numbers to the right, determine the magnitude FcAf the Coulomb force that qc exerts on qA A-10 nC B-10 nC c- 10 nC L- 300 jum d- 400 um C) Sketch the vector FcA. Use your drawing to determine itsx and y-components FCAx FCA,y D) Determine the magnitude Fca of the Coulomb force that gc exerts on qp- E) Sketch the vector Fca. Use your...
Sorry there are so many parts
to the question--thank you in advance for your effort.
INVESTIGATION 1: ELECTRICAL AND GRAVITATIONAL FORCES Let's begin our discussion with the familiar expression for the Coulomb force exerted on charge 2 by charge 1, F1-2 f12 Unit vector q1 r2 ,-8.99 × 109 Ncme C2 92 where k, is a constant that equals 9.0 x 10 N m2/C2. The force F2-1 of charge 2 on charge 1 is equal in magnitude and opposite in...
Please answer WARM-UP and PREDICTION.
PROBLEM #1: ELECTRIC FIELD VECTORS As part of your internship with a local power company, you have been assigned to a team reviewing published research about the effects of electric fields on human health. To evaluate the merits of apparently conflicting research, you need a computer program to simulate the electric field due to complicated charge configurations. Your team leader has assigned you the task of evaluating such a program. To test the program, you...
Sorry this question has so
many steps--Thank you in advance for the extra effort:)
Before proceeding with the video analysis, you will need to determine how the force the prod exerts on the hanging ball (the Coulomb force, F.) depends on 10 REALTIME PHYSICS: ELECTRICITY AND MAGNETISM the position of the hanging ball. This will allow you to calculate the values of the Coulomb force using the data from your video analysis. The situation is shown in the diagram below....
Hi, can you solve the question for me step by step, I will rate
up if the working is correct. I will post the answer together with
the question.
Answer:
Question 5 A particle of mass m rests on a smooth horizontal track. It is connected by two springs to fixed points at A and B, which are a distance 2lo apart as shown in Figure Q5. The left-hand spring has natural length 2lo and stiffness k, whilst the right-hand...
ANSWER ALL PLEASE
Question 5 2 pts Three charges 91.92 and 23 are fixed on the three points shown below. Charge 9: = + 9.0x10C, charge 92 = - 4.0x10C, and charge 03 = -3.2 x 10-6c. Determine the magnitude and direction of the net electrostaticforce on charge 91 due to the other two charges. 120 9 Equatione F-F4, F- Facos, + cose F = F., F., - . sin 0, +F, sin , Wallal i World o Netforce -...
answer all multiple choice please
1 12. A tiny spherical water drop has a charge of 3.00 X 10'15C. How many excess electrons are on the drop? b.2.25X10c. 1.6X 01 d. 1.87 X 10 13. A wire contains a steady eurrent of 0.75 A. The charge that passes a cross section in 3 s is: e. 3.35 C d, 225 С b, 6.4 x 10-1, С с.1.55 С a32x10", С 14. An electric field with a magnitude of 5 X...
Please help answer all of
question 6, thanks!
Rotational Dynamics Assignment (200 Points) • Due Friday, July 31 at 5:00 pm Equations are in a separate document entitled “Equations for Rotational Dynamics Assignment” • Moments of inertia formulas are provided on the last page of this document • Show all of your work when solving equations. It is not sufficient to merely have a correct numerical answer. You need to have used legitimate equations and algebra. You also need to...
I would really appreciate it if someone can help me with the
whole question. thank you.
You may be familiar with Newton's Second Law of Motion, SF = mā. In English, this equation says: The sum, or net, (S) of the forces (F) acting upon an object equals (=) the mass (m) of the object multiplied by the object's acceleration (ā). Even if you are familiar with this famous equation, did you notice the arrows above F and a before?...
Question 2 According to Newton's Laws of Motion, if I throw a baseball in outer space - far from any other object- how will that ball move over time? (For the sake of this problem, let's neglect my mass) After the force of my hand no longer acts on the ball: Question 2 options: the ball will move forward, but it will gradually slow down and come to a stop once the force of my hand no longer acts on...