![]() ![]() ![]() To date, the results of the initial experiment that produced SCP-357 can not be reproduced. R███████ B█████ who has been granted Level 2 clearance and allowed to do further research on SCP-357. The responsible researchers at the university were given a Class B amnestic with the exception of Dr. The only method found for increasing its mass is via the encapsulation of a volume.Īddendum 357-1 SCP-357 was initially produced by a cyclotron in 19██ at. If compressed to approximately 1 mm 3 at room temperature, no amount of force is able to decrease the size any further.Īpplication of vacuum pressure does not increase the size of a sample of SCP-357. Where the excess mass goes is presently unknown. Rather, the mass decreases at the same rate as the volume. When compressed in this manner, the density of SCP-357 does not change. If a homogeneous pressure of at least 100 N/cm 2 is applied to a sample of SCP-357, the material will decrease in size at a rate of 1.3 cm 3 per minute or more, depending on the magnitude of the pressure. Theories range from the object taking on the properties of SCP-357 to the object being replaced by a corresponding volume of SCP-357. If the solid object is fully absorbed by SCP-357, it will become impossible to distinguish between it and the substance of SCP-357. SCP-357 will displace the appropriate volume as any other fluid would. If solid matter is placed in a container of SCP-357, it will sink into the substance at a constant rate of 0.5 cm per minute. The edge of the mass follows the same Gaussian function that is seen in the meniscus. ![]() If allowed to settle on a flat surface, SCP-357 will spread until its average thickness is no more than 1 mm. The thickness of the substance at the top of the meniscus is 1 mm, at which point it merges with the surface of the container following a Gaussian curve. SCP-357 will form a meniscus inside the container 7.5 cm high. It will settle at a rate of approximately 0.5 cm per minute until it reproduces the shape of the inside of its container. However, unlike Play-Doh, SCP-357 will not retain its shape for any length of time if left at rest. When permitted to physically interact with SCP-357, researchers describe it as having a consistency similar to that of Play-Doh brand modeling compound. These two latter results suggest that SCP-357 may not be atomic in nature however, there have been no satisfactory hypotheses as to how baryonic matter is able to interact with it. Electron microscopy of SCP-357 has shown no inherent granularity at any level. To date, chemical analysis of SCP-357 has yielded no conclusive results. The material has been found to reflect all radiation with 100% efficiency. SCP-357 is a malleable substance with a density of 250 kg/m 3. ![]()
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