For many years, Nickelodeon slime has actually can be found in contact with stars, artists, and professional athletes here in the world– and quickly, it will reach astronauts in deep space.

According to a news release released previously this month, the green compound will be provided to the International Spaceport station to promote STEM-related interest in primary and intermediate school trainees though academic videos and digital material.

Team members will carry out experiments “to trigger an interest in microgravity research study and assistance trainees find out about STEM subjects such as fluid circulation and products engineering,” according to journalism release. The experiments will expose the impacts of microgravity on slime, which is a non-Newtonian fluid– a product that can alter its viscosity or resistance to circulation.

The slime, together with 5,500 other experiments and products, will be aboard the SpaceX Falcon 9, which is set to go for 6: 24 pm ET on Wednesday from Cape Canaveral Flying Force Station in Florida. It will be the SpaceX’s 18 th freight resupply objective to the spaceport station for NASA so far.

“We’re going to slime a number of astronauts and put it through a couple presentations,” Andrew Machles, a vice president of public affairs at Viacom, which owns Nickelodeon, informed CNN

Learn More: Here’s what Nickelodeon slime is made from– according to ‘Double Dare’ host Marc Summers

The academic material might be revealed as quickly as September by means of Nickelodeon’s tv and online streaming, Machles stated.

While the Falcon 9 will bring other clinical experiments on board, such as cell cultures, microbial developments, and laboratory rats, the rocket has another not likely guest: an Adidas soccer ball.

“Observing and determining the movement of soccer balls in microgravity enhances understanding of the basic habits of free-flying items,” NASA informed CNN. “This might add to much better style and usage of free-flying items such as little robotics in spacecraft.”

ISS team members will examine the aerodynamics of free-flying soccer balls in microgravity by determining “the spin speed, wobble, and spin axis of balls with various shapes and textures and compare the information to Earth-based experiments,” according to journalism release.

“Existing aerodynamic research study on soccer balls utilizes wind tunnel experiments to connect aerodynamic forces and surface area attributes,” journalism release mentioned. “With microgravity, a few of the physical restrictions of wind tunnel experiments are gotten rid of, offering the chance for brand-new information to complete the spaces in understanding of round aerodynamics.”