R-1.22 m, Q-1.85x10 c,a-q and-, Caloulate the 3 total force on Q Enter your response as positive if the force is to the right and negative if the force is to the left.
c. Q = 2 8. What would the electric force on a charge Q be at each of the points shown in Figure 27.12 when Figure 27.12 Q- -0.10 C b. Q = +0.10 pc e Q=+0.54C 16. What is the magnitude of the electric field at each of the points in Figure 27.112!
1. The force F-40 lb can be written in terms of scalar components R, and R The scalar component R, is most nearly F 40 1b 1. 6.95 1b 2. 25.7 lb 3. 26.1 lb 4. 29.7 lb 5. 30.6 lb 6. 33.6 lb 7. 39.4 lb 40°
what is R? 2 PC21548 551.72 Q-
1)What is the x-component of the total force on charge Q? 2)What is the y-component of the total force on charge Q? Please explain answers Consider three charges on a circular ring, q1 = +29, q2-q3° +q. A charge +Q is placed at the center of the circle. 2q 2
Problem 5 Given that the charge Q = +20.0 HC and R= 10 cm. R (a) (4-pts) Label, and define dE and dq on the diagram in appropriate terms, also include a coordinate system and any necessary parameters. (b) (4-pts) Give an expression for dE in terms of the labeled parameters. (remember it is a vector) (c) (4-pts) What is the net electric field at point P? (d) (4-pts) If I place a negative 20 HC charge at point P,...
Consider the following: Algorithm 1 Smallest (A,q,r) Precondition: A[ q, ... , r] is an array of integers q ≤ r and q,r ∈ N. Postcondition: Returns the smallest element of A[q, ... , r]. 1: function Smallest (A , q , r) 2: if q = r then 3: return A[q] 4: else 5: mid <--- [q+r/2] 6: return min (Smallest(A, q, mid), Smallest (A, mid + 1, r)) 7: end if 8: end function (a) Write a recurrence...
Q 2. The work done on an object is equal to the force times the distance moved in the direction of the force. The velocity of au objected in the direction of a force is given by 4cos(t1). 0SIS1 r(t) 20+(5-) 1<t52 1 where e(t) is in m/s. Determine the work done with Simpson's one-third rule if a constant required to use a mesh grid size of 0.2 (i.c. h=0.2). force of 200 N is applied for all t.You are...
3. (5 pts) Electrostatic force. A sphere of radius R which carries a uniform volume charge density ρυ is cut in half as shown in the following figure. Find the force that the southern hemisphere exerts on the northern hemisphere and express it in terms of the total charge of the sphere q. 3. (5 pts) Electrostatic force. A sphere of radius R which carries a uniform volume charge density ρυ is cut in half as shown in the following...
Consider a uniformly volume‑charged sphere of radius R and charge Q . What is the electric potential on the surface of the sphere in terms of R , Q , and ϵ 0 , choosing the zero reference point for the potential at the center of the sphere?