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A company's debt-to-equity ratio (D/E) is a financial ratio indicating the relative proportion of shareholders' equity and debt used to finance the company's assets. [1] Closely related to leveraging , the ratio is also known as risk , gearing or leverage .
If the firm is assumed to rebalance its debt-to-equity ratio continuously, the Hamada equation is replaced with the Harris-Pringle equation; if the firm rebalances only periodically, such as once a year, the Miles-Ezzell equation is the one to be used. The beta of debt β D equals zero. This is the case if debt capital has negligible risk that ...
The dividend payout ratio is the fraction of net income a firm pays to its stockholders in dividends: Dividend payout ratio = Dividends Net Income for the same period {\textstyle {\mbox{Dividend payout ratio}}={\frac {\mbox{Dividends}}{\mbox{Net Income for the same period}}}}
The debt ratio or debt to assets ratio is a financial ratio which indicates the percentage of a company's assets which are funded by debt. [1] It is measured as the ratio of total debt to total assets, which is also equal to the ratio of total liabilities and total assets: Debt ratio = Total Debts / Total Assets = Total Liabilities ...
A company's debt-to-capital ratio or D/C ratio is the ratio of its total debt to its total capital, its debt and equity combined. The ratio measures a company's capital structure, financial solvency, and degree of leverage, at a particular point in time. [1] The data to calculate the ratio are found on the balance sheet.
Robert Shiller's plot of the S&P composite real price–earnings ratio and interest rates (1871–2012), from Irrational Exuberance, 2d ed. [1] In the preface to this edition, Shiller warns that "the stock market has not come down to historical levels: the price–earnings ratio as I define it in this book is still, at this writing [2005], in the mid-20s, far higher than the historical average
E i is the Young's modulus along axis i; G ij is the shear modulus in direction j on the plane whose normal is in direction i; ν ij is the Poisson ratio that corresponds to a contraction in direction j when an extension is applied in direction i. The Poisson ratio of an orthotropic material is different in each direction (x, y and z). However ...
in what is known as the Horeau effect [3] the relationship between mole based ee and optical rotation based ee can be non-linear i.d. in the succinic acid example the optical activity at 50% ee is lower than expected. the specific rotation of enantiopure 1-phenylethanol can be enhanced by the addition of achiral acetophenone as an impurity. [4]