Explain the appropriate treatment of each event in accordance with the requirements of AASB 110 ‘Events after the Reporting Period’.

Fraser Ltd is a retailer with a reporting period that ends on 30 June. By 28 August 2018,

 

in your role as the accountant for Fraser, you have identified the following material events

that require further consideration prior to authorisation of the financial statements for the

year ended 30 June 2018.

(a) There is a decline in the market value of investments held by Fraser of $87 000 on

1 August.

(b) New share capital of $150 000 is issued on 13 July.

(c) As the result of a large sale on 22 July, Fraser Ltd issues guarantees on its products

at an estimated cost of $45 000.

(d) At 30 June, accounts receivable are recorded at $430 000, of which $120 000 was

owed by Munroe Ltd. Munroe Ltd has since been placed in receivership. You received

formal notification from the receiver on 29 July that Munroe Ltd is unable to settle its

debts in full and will pay $22 000 in full settlement of its debt to Fraser Ltd. The

allowance method of accounting for accounts receivable is used.

(e) At 30 June, units of inventory were written down by $30 000 from their recorded

amount of $170 000 to their estimated net realisable value of $140 000. These units

of inventory were sold on 14 August for $165 000.

Explain the appropriate treatment of each event in accordance with the requirements of

AASB 110 ‘Events after the Reporting Period’. (LO3)

find the cost of your paper

erive the differential equations in terms of the liquid heights h1 and h2.

  Figure 7.18 shows a liquid-level system in which two tanks have cross-sectional areas A1 and A2, respectively. The volume flow rate into tank 1 is qi. A pump is connected to the bottom….

Derive the differential equation relating the liquid height h and the volume flow rate qi at the inlet.

  Consider the single-tank liquid-level system shown in Figure 7.19, where the volume flow rate into the tank through a pipe is qi. The liquid leaves the tank through an orifice….

Derive the differential equations in terms of the liquid heights h1 and h2.

Figure 7.20 shows a hydraulic system of two interconnected tanks that have the same cross-sectional area of A. A pump is connected to tank 1. Assume that the relationship between the….