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Consider a simple gravity pendulum, whose length equals the radius of the Earth, suspended in a uniform gravitational field of the same strength as that experienced at the Earth's surface.
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Consider and simple
Consider a simple, closed, plane curve C which is a real-analytic image of the unit circle, and which is given by Af.
Consider how a simple expression such as could be evaluated – one could also compute the equivalent.
Consider for example a sample Java fragment to represent some common farm " animals " to a level of abstraction suitable to model simple aspects of their hunger and feeding.
Consider the simple case of two-body system, where object A is moving towards another object B which is initially at rest ( in any particular frame of reference ).
Consider a simple banking application where two users have access to the funds in a particular account.
Writing in 1960, he begins: " Consider a very long sequence of symbols ... We shall consider such a sequence of symbols to be ' simple ' and have a high a priori probability, if there exists a very brief description of this sequence-using, of course, some sort of stipulated description method.
In the case that T acts on euclidean space R < sup > n </ sup >, there is a simple geometric interpretation for the singular values: Consider the image by T of the unit sphere ; this is an ellipsoid, and its semi-axes are the singular values of T ( the figure provides an example in R < sup > 2 </ sup >).
Consider a simple exchange economy with two identical agents, one ( divisible ) good, and two potential states of the world ( which occur with some probability ).
Consider a simple case: a perfectly competitive market where fuel is the sole input used, and the only determinant of the cost of work.
Consider and gravity
Consider two equal bodies ( not affected by gravity ), each of mass, m, attached to three springs, each with spring constant, k. They are attached in the following manner:
Consider and pendulum
Consider and whose
Consider the subset sum problem, an example of a problem that is easy to verify, but whose answer may be difficult to compute.
Consider a random variable X whose probability distribution belongs to a parametric family of probability distributions P < sub > θ </ sub > parametrized by θ.
" Consider also Rabbinic Hebrew תרמ √ trm ‘ donate, contribute ’ ( Mishnah: T ’ rumoth 1: 2: ‘ separate priestly dues ’), which derives from Biblical Hebrew תרומה t ' rūmå ‘ contribution ’, whose root is רומ √ rwm ‘ raise ’; cf.
Suppose S ' is in relative uniform motion to S with velocity v. Consider a point object whose position is given by r
Consider climbing up the connectivity ladder — assume X is a simply-connected CW-complex whose 0-skeleton consists of a point.
Consider an-dimensional space, foliated as a product by subspaces consisting of points whose first co-ordinates are constant.
Consider a country whose economy is characterized by a large number of sectors which are so small that any increase in the productivity of one sector has no impact on the economy as a whole.
A partition of a set S is a pairwise disjoint set of non-empty subsets, called " parts " or " blocks ", whose union is all of S. Consider a finite set that is linearly ordered, or ( equivalently, for purposes of this definition ) arranged in a cyclic order like the vertices of a regular n-gon.
Consider a system composed by cascaded non interacting blocks, each having a rise time and no overshoot in their step response: suppose also that the input signal of the first block has a rise time whose value is.
Consider a classically parity-invariant gauge theory whose gauge group G has dual coxeter number h in 3-dimensions.
0.299 seconds.