| If you are unsure which penny stocks to invest in, | | | | a 100% return on investment. Thus, if you had |
| you can leverage the resources of computer | | | | invested $1,000 in that stock, you could have netted |
| software technology to help you make a decision. | | | | anywhere from $2,000 to $3,000, depending on |
| Over the last hundred years, stock analysts have | | | | when you decided to sell the stock. While it is |
| made it their business to research, trend, analyze, | | | | obviously not possible to predict the future with |
| and rate various stocks for their profitability. | | | | 100% accuracy, a computer program's |
| Now, with advancements in information technology | | | | recommendations are based on mathematically |
| at our disposal, computers are able to crunch | | | | precise, statistical analysis. Yet it cannot be |
| numbers, perform trend analysis, store, manipulate, | | | | overstated enough that there is no guarantee that |
| and process data at astonishing speeds with | | | | you cannot lose money in the stock market. |
| impeccable mathematical precision - on the order of | | | | All investing comes with a certain level of risk. |
| millions of computations per second. | | | | However, we human beings can leverage the |
| Let's look at how a computer program can help pick | | | | resources of software programs, to make accurate |
| a penny stock, for example. Take, for instance, IDGJ. | | | | projects for us based on formulaic algorithms that |
| In January of 2008, within a week, it rose from $0.09 | | | | are used in stock trending analysis. It is simply up to |
| per share to a high of $0.32 per share before | | | | us to follow them. |
| stabilizing at $0.19 per share. That represents at least | | | | |