It means that the force of electrical attraction (or repulsion) between two particles with units charges will be greater than the gravitational attraction between two particles with unit mass which are the same distance apart.
a number in form of decimal
Normel
The formula for simple (ordinary) interest on a bank deposit is Deposit Amount x Rate x Time (# of days) on Deposit.
FVoa = PMT [((1 + i)n - 1) / i]FVoa = Future Value of an Ordinary AnnuityPMT = Amount of each paymenti = Interest Rate Per Periodn = Number of Periods
It is 0.06235
See this link.What_is_the_difference_between_ordinary_prism_and_constant_deviation_prism
difference between ordinary prism and constant deviation prism
Ordinary constant is a real constant which is same in all time but arbitrary constant is not constant at all time intervals, especially we can see arbitrary constants in integrals.For example the anti derivative of x+C is 1. Here we can replace C with any constant so C is arbitrary constant
we use mercury lamp instead of ordinary lamp because ordinary lamp has many wavelengths when mercury lamp has single wavelength so in constant deviation we use only mercury lamp.
Rain fall is not always constant. That's how they get there water
The answer depends on the context: in ordinary geometry it could refer to height, in quantum physics it could refer to the Planck constant.
The Constant growth model does not address risk; it uses the current market price, as the reflection of the expected risk return preference of investor in marketplace, whereas CAPM consider the firm's risk, as reflected by beta, in determining required return or cost of ordinary share equity.Another difference is that when constant growth model is used to find the cost of ordinary share equity, it can easily be adjusted with flotation cost to find the cost of new ordinary share capital. whereas CAPM does not provide simple adjustment.Although CAPM Model has strong theoretical foundation, the ease of the calculation of the constant growth model justifies it use.
4%
.Catholic AnswerThe propers change depending on the season and the feast in the Church calendar.
It is F= (mass of one object)(mass of second object)(Gravitational constant)/(the distance between them)2 The gravitational constant is about 6.67x10-11 The mass should be in kg, and the distance in meters
Ordinary is an adjective (an ordinary day) and a noun (out of the ordinary).
An ordinary queue requires constant time access to the first and last elements, because all insertions occur at the back of the queue and all extractions at the front. Thus we require two pointers. However, with a circular queue, the next element after the last element is always the first element, thus we gain constant-time access to both the front and back of the queue through a single pointer to the back of the queue.