solve all 4 parts of question 1 YA A 2 Question (write down the answers in...
i need help with question 3 and 4 please a gastate ldition of Vectors ime Taken:0:0 1:28Sulaiman Abdulwahab: Attempt 1 Question 3 (2 points) For the given three vectors that act at a point, <vec A and evec C> (10 N, 150°) (10 N, 0P: <vec B> (7.07 N, 459) State the x-component and the y-component of the equilibrant vector-vec R>-<vec A> + «vec B> + <vec C>, Express the each component to ONE decimal place. Hint: the equilibriant vector...
Please answer all three parts. (i) Take the laplace transform with respect to t (ii) Solve the resultant integral in x (iii) Solve the result from s-space to t-space using the Bromwich integral 2. Obtain these integrals by (i) taking the Laplace transform w.r.t. t, (ii) solving the resultant integral in I, and then (iii) inverting the result from s-space to t-space using the Bromwich integral (b) g(t) = po sin(t I) de (12+1)
1. Answer all parts to this question. From the following list of metal ions and ligands, construct metal complexes with properties which match that described in each part of the question and provide a brief explanation (Only one example is required for each part of the question, eg [Fe(H:01) Metal ions Ligands in order of increasing ligand field strength) I <Br <C<NO, <OHOXH.0 Ti(IV), V(III), V(IV), CHIT), CHIIT), Min(II). NH<em<bry<PPh<N =CÓ Mn(III). Mn(IV), Fe(II) Fe(III). CoII), COIIT) en = ethylenediamine...
Hi, I need the full worked solution (step-by-step with clear explanations where possible) for all parts of this question, please. The final answers to all the parts are given below the questions. Would greatly appreciate neat handwriting with clear steps. Thank you! :) Question 6 A particle of mass m is projected vertically upwards with an initial speed vo in a fluid. The magnitude of the resistive force is kv, where v is the speed of the particle and k...
Hi, I need the full worked solution for parts (ii) and (iii) of this question please :) The final answers to all parts are given below the questions. I do not need the solution to part (i). Thank you for your help! (Would greatly appreciate proper steps with clear handwriting thank you~) Question 5 A ladder of mass m may be modelled as a uniform rod of length a, stands on a rough horizontal surface at A and rests against...
Hi, I need the full worked solutions (step-by-step with explanations where necessary) for all parts of this question please. The final answers to each part are given below the questions. Would greatly appreciate neat handwriting and clear steps. Thank you! :) Question 4 A uniform rod AB of weight W and length 2a, rests in equilibrium with its end A against a smooth vertical wall PQ, and its end B on a rough inclined plane OQ at an angle a...
solve all parts Three point charges are arranged in a horizontal line as shown below. Find the electric forces (in units of kQ^2/R^2) on the charges given the following: Q_1 = -80 Q, Q_2 = -4 Q, Q_3 = 36 Q, r_1 = 4 R and r_2 = 2 R Remember that a positive force points to the right and a negative force points to the left. What is the net force on charge Q_1? What is the net force...
please solve all the parts , this is all one question . for all your answers explain . GAUSS' LAW Name Section EM HW-7 1. The closed Gaussian surface shown at right consists of a hemispherical surface and a flat plane. A point charge +Qo is outside the surface, and no charge is enclosed by the surface. a. What is the flux through the entire closed surface? Explain. +20 Let Pr represent the flux through the flat (left-hand) portion of...
please help with ALL the parts to the question: A B and A and B 2 (20 points). Three-point charges at three comers of the rectangle shown in the figure. Arpoint P (a) draw field vectors due to all charges. (b) find the resultant field in x and y directions, (a) calculate the magnitude and direction of the resultant field. (b) What is the net force experienced by a charge q5.00 uC placed at that point? 0.500m 0.800m 4.-30.0 HC...
Help me solve this question asap 9. a) Define a current of magnitude 1 A. b) 6 A 10 A FIGURE 4.3 Two long straight parallel copper wires X and Y are placed at a distance r apart in FIGURE 4.3. X carries current of 6 A and Y carries current of 10 A in the opposite direction. (i) Find the location of a point from wire X, in term of r, where the resultant magnetic field will be zero....