compute the sales revenue that must be earned for ironjay to break even.

multiple products, break-even analysiss, operating leverage, segmented income statements ironjay, inc., produces two types of weight-training equipment: the jay-flex (a weight machine that allows the user to perform a number of different exercises) and a set of free weights. ironjay sells the jay-flex to sporting goods stores for $200. the free weights sell for $75 per set. the projected income statement for the coming year follows: sales less: variable expenses contribution margin less: fixed expenses s600,000 390,000 $210,000 157,500 $ 52,500 operating income the owner of ironjay estimates that 40 percent of the sales revenues will be pro- duced by sales of the jay-flex, with the remaining 60 percent by free weights. the jay- flex is also responsible for 40 percent of the variable expenses. of the fixed expenses, one-third are common to both products, and one-half are directly traceable to the jay- flex line. required: 1. compute the sales revenue that must be earned for ironjay to break even. 2. compute the number of jay-flex machines and free weight sets that must be sold for ironjay to break even.

find the cost of your paper

determine values for K7 and K8.

Polyolefins such as polyethylene undergo slow degradation when placed in air. Degradation occurs by reactions with atmospheric oxygen that lead to the formation of carbonyl groups (groups containing oxygen), gradual….

State the differences in operation and application for junction transistors and MOSFETs.

1. State the differences in operation and application for junction transistors and MOSFETs. 2. We note in Section 12.5 (Figure 12.20) that in FeO (wüstite), the iron ions can exist in both….

Determine values of DT for aluminum, steel, aluminum oxide, soda–lime glass, polystyrene, and nylon 6,6 using the data in Table 19.1.

Nonsteady-state heat flow may be described by the following partial differential equation:     where DT is the thermal diffusivity; this expression is the thermal equivalent of Fick’s second law of diffusion….