The first human outbreaks of Ebola occurred in 1976. The disease has since risen to be an epidemic in 2014. The disease, for example, is considered so infectious to humans because it only takes small amounts of Ebola to spread throughout the entire body. Lab experiments have determined that even a single virus can infect the whole body of a chimp in a matter of days.1 Unlike some other severe diseases like measles, Ebola is not airborne which makes it substantially less contagious. The disease's main methods of transportation are through bodily fluids by means of sneezing and coughing.2 Ebola, despite dying out when exposed to too much oxygen, can still survive for several hours on things that hundreds of people touch daily like doorknobs or counter tops. On top of this fact, Ebola can survive for several days in things like puddles or collections of bodily fluids in room temperature environments.3 Cases of Ebola, and the deaths associated with them, in Liberia were first recognized in about mid-March of 2014. Currently, the number of treatment centers for Ebola in Liberia is not enough to accommodate for the overwhelming amount of infected patients. It is critical that people with Ebola get the treatment they need because the disease has a death rate of 70%.4 Currently, as of October 3, 2014, there are a total of 3,834 Ebola cases and 2,069 deaths in Liberia.5 I created an SLIR model (Susceptible, Latent, Infectious, Removed) using weekly time steps (one time step is equal to one week) to predict the total number of Ebola cases in Liberia by December 31, 2014. My model is based on the growth rate of Ebola in between the dates October 3, 2014 and December 31, 2014. The model will ignore any future interventions from external forces in attempts to stop the disease from spreading. The model will also omit the birth and death rates from natural causes in Liberia over the course of the time frame. The first pieces of information that ar