1.In a certain department of a factory there are two shops. Total departmental overheads for a year are `1,20,000 and the estimated number of direct labour hour is 24,000 (10 men employed for 48 hours per week during 50 weeks in the year). From the particulars given below calculate the prime cost and works cost of a work order No. 54 which passes through both shops:
(1) Material consumed `1,000.
(2) Direct labor hours shop A -8hrs at '6.00 per hour
Shop B-5hrs 7.50 per hour
3) Works overheads are to be levied by means of a direct hour rate
2.How can consumer satisfaction be measured using perspectives of financial and non-financial measures.
3.What is just in time technique for managerial accounting.
4.How do you measure impact of managerial control on employees behavior
5.What are some alternative methods of measuring value of intangible assets
6.What impacts do managerial accounting for operation managers have in decision making and planning.
7.Discuss the need of database logical structures and their significance in effective management of database.
8.Why are retained earnings not distributed to shareholders in a public company.
9.State and explain when a company should report a balanced sheet
10.Why is volume a totally independent variable from price in the market
8) A negative charge, if free, tries to move A) in the direction of the electric field. B) from low potential to high potential. C) from high potential to low potential. D) away from infinity. E) toward infinity. 9) Gaussian surfaces A and B enclose the same positive charge +Q. The area of Gaussian surface A is three times larger than that of Gaussian surface B. The flux of electric field through Gaussian surface A is A) nine times larger than the flux of electric field through Gaussian surface B. B) unrelated to the flux of electric field through Gaussian surface B. C) equal to the flux of electric field through Gaussian surface B. D) three times smaller than the flux of electric field through Gaussian surface B. 10) If the electric field is in the positive x direction and has a magnitude given by E = Cx, where C is a constant, then the electric potential is given by V= A) 2Cx B) -2Cx C) Cx3/3 D) -CP3/3 E) -3Cx 2Fig.-1 shows Gaussian surfaces 51. S2. Sy, and S, enclosing different charges as indicated. I. Calculate the enclosed charge in all four Gaussian surfaces, separately in Fig.-1. SI: 2. If charge Q. is 4.0 x 10*C, calculate the net flux in Gaussian surface Sy, using Gaussian Law. Fig. I Fig. 22) Given a uniform E-field, E = (2.007 - 3.00/ + 4.00k)- , and the Gaussian surface shown (a Rectangular Cuboid). There is no charge inside the surface. 1:50 m Calculate the Electric flux through each of the 6 surfaces: Diet, right, Plop, 200 m 200 m Pootom, Piront, and back. (show all your work, write down all the area vectors) 1 BONUS POINT: What is the net flux through the Gaussian Surface if a Uranium nucleus is placed inside the Gaussian Surface? (HINT:use Gauss' Law)Partial Question 5 0.5 / 1 pts Which of the following statements about Gauss's law are correct? (There may be more than one correct choice.) The electric flux passing through a Gaussian surface depends only on the amount of charge inside that surface, not on its size or shape. O Gauss's law is valid only for symmetric charge distributions, such as spheres and cylinders. V If a Gaussian surface is completely inside an electrostatic conductor, the electric field must always be zero at all points on that surface. If there is no charge inside of a Gaussian surface, the electric field must be zero at points of that surface. Only charge enclosed within a Gaussian surface can produce an electric field at points on that surface