We need applied overhead rate to know about the overhead variance. Otherwise how will we know how much overhead expenses should have been incurred and how much is actually incurred? Predetermined rate multiplied by the actual unit level activity is applied overhead
One disadvantage to using a predetermine overhead absorption rate is the fact that the rate may be too much for any particular product. If this happens, then the price of the product will be too much.
Because in ABC costing overheads are allocated based on activities performed by departments rather based on any rate or formula that's why as much activity any department perform as much cost will be allocated which is more accurate way of allocation.
In managerial accounting, a cost added on to the direct costs of production in order to more accurately assess the profitability of each product. Overhead costs are all costs that are not directly related to the production of the good to be sold. These include administrative salaries, the costs of the building or machinery, commissions to salespeople, and many other items. To allocate these costs, an overhead rate is applied that spreads the overhead costs around depending on how much resources a product or activity used. For example, overhead costs may be applied at a set rate based on the number of machine hours required for the product. In more complicated cases, a combination of several cost drivers may be used to approximate overhead costs.
If mean overheads as in options added. It can affect it by as much as 50% on some models the most notorious is VW.
The mathematical equation for creating a catenary curve is: y=acosh(x/a)'a' is a variable, x and y are the axis of the graph. The steepness of the curve is inversely proportional to the size of the variable.To answer the question less mathematically, the "catenary solution" is one where the engineer is able to reduce tensile stress within a structure and replace it with compressive stress. Put another way, a catenary arch is massively strong under compression, and requires almost no tensile strength to remain upright. It is therefore much stronger and more stable than conventional circular arches, in the absence of reinforcing steel, which provides the tensile strength in reinforced concrete structures.Catenary arches are, and have been, widely used in the construction of kilns. Kilns are incredibly harsh environments, and the materials used to make them must withstand massive, rapid and frequent changes in temperature. Such changes tend to destroy the tensile strength of materials (things get brittle when you bake them), and so a structure possessing almost no need for tensile strength is a natural winner for building kilns.A third way of answering this question is to say "Go hang a chain from two posts." The latin word catena means "chain", and it is from the curve of suspended chains and ropes that we derive the most natural and frequent catenary curves.So the answer for the question "what is the catenary solution" is very much a question of the discipline to which it relates. It is a very poorly worded question, most likely put forward by a mathematician. Mathematics is a concise and specific language, where neat answers respond to neat questions, offering great enlightenment in the process. Regrettably, mathematicians often confuse the very complex and rich language of English for the language of mathematics, and thus ask very simple questions that they imagine will generate enlightening answers with merely a few words in response.Sadly, the English language is full of complex curves and angles, and it is never quite apparent what sort of arrangement of words might stand up in argument, and which set may fail under load. Therefore is fair to submit that the final catenary solution is prison: for the accused to be chained to a wall and hung there, as due punishment for asking simple questions about complex things.This last solution combines the three disciplines of mathematics, physics and philosophy, and so I offer it as the best all round solution for people who ask these sorts of questions.
Overhead valves open vertically from the head into the combustion chamber. Overhead valve engines use a system of lifters, push rods, and rocker arms to operate the valves. The cam on an overhead valve system is adjacent to the crankshaft, and the lifters, push rods and rockers work together to operate the valves. Overhead cam engines position the camshaft directly above the valves. In that position, there is much less weight of the valve operation mechanism, resulting in a potentially higher engine operating speed.
We need applied overhead rate to know about the overhead variance. Otherwise how will we know how much overhead expenses should have been incurred and how much is actually incurred? Predetermined rate multiplied by the actual unit level activity is applied overhead
How much overhead with TCP?1. 1. 20 bytes of TCP20 bytes of IP= 40 bytes + app layer overhead
Traditional pbx system takes huge bite of budget in maintenance especially in hardware replacement, but if you are hosted, you only pay the service you get and free from worrying maintenance.
Too much!!!
The principal disadvantge of too much multiprogramming is the overhead of excesssive context-switching. If the context-switch rate is too high, the overhead can actually overwhelm the benefit of multiprogramming.
18.2
Maintaining the correct and clear distribution of voice transmission as well the signal within the system. And probably they are in-charge for the maintenance of phone hardware and communication system.
as much as they work
35000
this much o o