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Answer: Yes!

Answer: Not really a "formula"; this would be more like an "algorithm", i.e., a description of how to do it.

Q: Can you write a formula for division through repeated subtraction?

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It is the fundamental unit of counting numbers. Repeated addition of the number 1 generates the counting numbers. The set of counting numbers is then extended, through subtraction, to the set of all integers. That set is then extended, through division, to rationals. That, in turn, is extended to the irrationals, reals, and complex numbers. So the number 1 is at the root of all kinds of sets of numbers. Also, it is the identity element of multiplication.

I would believe that is impossible. If I'm wrong i need to go back to 3rd grade ;) Edit: It is possible if you are using multiplication (eg 8 x 3) or division (eg 72 / 3). But not possible through addition or subtraction.

Because it is the process of deriving probability through repeated experiments.

The formula to find the area of a parallelogram is Base x Height (B*H). When dots are plotted on a coordinate plane, you can find these values either through the process of ordered pair subtraction or by counting the number of units between each point. You multiply these values and their product is the area.

Assuming that repeated numbers are allowed, the number of possible combinations is given by 40 * 40 * 40 = 64000.If repeated numbers are not allowed, the number of possible combinations is given by 40 * 39 * 38 = 59280.

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Growth in living things occurs primarily from a combination of nutrient intake and genes for growth which are turned "on" (and tend to turn "off" with aging).

C4H5Cl Note that neoprene is produced through the polymerization of chloroprene--meaning that both have the same chemical formula, but in neoprene it is a repeated structural unit.

multiply divide and count Each of ENIAC's 20 accumulators could do 5000 additions or subtractions per second. A special panel called the "multiplier" could control 4 accumulators to do multiplication by repeated addition and shifting. A special panel called the "divider/square rooter" could control 5 accumulators to do division by repeated subtraction and shifting or square roots using a modification of the division process. A special panel called the "master programmer" could be programmed to sequence the machine through arbitrary functions or iterative processes.

It is the fundamental unit of counting numbers. Repeated addition of the number 1 generates the counting numbers. The set of counting numbers is then extended, through subtraction, to the set of all integers. That set is then extended, through division, to rationals. That, in turn, is extended to the irrationals, reals, and complex numbers. So the number 1 is at the root of all kinds of sets of numbers. Also, it is the identity element of multiplication.

The main differences between cell division in prokaryotic. An organism know to become two cells, then four cells, and so on.

leibnitz's calculator is simply an improvised version of the adding machine. this machine could perform multiplication and division as well. ( multiplication through repeated addition and division through repeated subtraction). talking about the history of this machine it was invented by a German mathematician Gottfried Leibnitz. It used a stepped cylinder with nine teeth for varying lengths instead of wheels used by pascal. For a better idea refer to a picture of Leibnitz's calculator: http://images.Google.co.in/images?hl=en&q=leibnitz%27s+calculator&btnG=Search+Images&gbv=2&aq=f&oq= (please press ctrl and then click on the above link to view the picture.) tell me if the link does not work.

isokinetic

Somatic cell division

I would believe that is impossible. If I'm wrong i need to go back to 3rd grade ;) Edit: It is possible if you are using multiplication (eg 8 x 3) or division (eg 72 / 3). But not possible through addition or subtraction.

.721 through .72999999999 Repeated.

The ENIAC (Electronic Numerical Integrator and Computer) was a groundbreaking electronic computer built in the 1940s. It could perform complex calculations and solve mathematical problems. The ENIAC was primarily used for ballistic calculations during World War II, but it also had applications in scientific research and weather prediction.

Infinite. If numbers can be repeated, the list could go on nonstop.