Abstract: A non-aqueous electrolyte solution for a lithium secondary battery and a lithium secondary battery including the same are described herein. Specifically, the non-aqueous electrolyte solution for a lithium secondary battery includes a lithium salt, a first solvent including a non-fluorine-based solvent, a second solvent including a fluorine-based carbonate solvent, and a third solvent including a fluorine-based acetate solvent, wherein the fluorine-based carbonate solvent and the fluorine-based acetate solvent are included in a weight ratio of 1:0.5 to 1:1, and a mixed amount of the fluorine-based carbonate solvent and the fluorine-based acetate solvent may be in a range of 3.0 wt % to 30 wt % based on a total weight of the non-aqueous electrolyte solution for a lithium secondary battery.

Abstract: The present invention provides a method for detecting mycoplasma, which can directly confirm whether a cell is infected with mycoplasma, by simultaneously amplifying DNA extracted from lysing a host cell infected with mycoplasma, and mitochondrial DNA in the cytoplasm of the host cell. According to the method of the present invention, by directly using the DNA inside the host cell, the DNA of mycoplasma bound around the nucleus of the host cell can be used as an amplification target, thereby increasing detection sensitivity. In addition, since the mitochondrial DNA inside the host cell is used as an amplification target of an internal control sample, whether the sample has been sampled in an appropriate amount can be confirmed in a convenient manner, and furthermore, by comparing the band size between the internal control sample and the mycoplasma DNA, the degree of mycoplasma infection can be quantitatively confirmed.

Abstract: The present disclosure relates to a rendering method for generating an image of an assembling toy formed by coupling a plurality of assembling elements arranged in a virtual space. The rendering method includes placing a virtual camera, which is an origin of a ray of light traveling in the virtual space, in the virtual space; emitting a virtual ray from the virtual camera; and determining a pixel value of a pixel corresponding to the virtual ray among pixels of the image in consideration of characteristic information of a transparent assembling element when the virtual ray hits the transparent assembling element among the plurality of assembling element wherein the characteristic information includes at least a transmittance albedo and a reflection albedo.

Abstract: The present disclosure relates to a method for checking connection stability of a plurality of assembling elements disposed in a virtual space, each of the assembling elements having at least one coupling part complementarily coupled to another coupling part and being connected to another assembling element through the coupling part. A connection stability checking method includes: assigning preset weight information to the assembling element; calculating a coupling power of the coupling part in consideration of a coupling type and a coupling number of the coupling part; and determining connection stability between the assembling element and another assembling element on the basis of the coupling power and the weight information assigned to the assembling element.

Abstract: A method for determining an assembly sequence of an assembling toy including a plurality of assembling elements disposed in a virtual space, Each of the assembling elements have at least one coupling part complementarily coupled to another coupling part, and connected to another assembling element through the coupling part, including a previously assembled element assembled to the assembling toy in the virtual space and a target assembling element that not yet assembled. The method for determining an assembly sequence includes: determining an assembly group in consideration of an upper surface height of the target assembling element connected to the previously assembled element, the upper surface height is calculated on the basis of a height from a ground to an upper surface of the target assembling element; and determining whether to generate a sub assembly group in consideration of the number of the assembling elements included in the assembly group.

Abstract: The present invention provides a method for detecting mycoplasma, which can directly confirm whether a cell is infected with mycoplasma, by simultaneously amplifying DNA extracted from lysing a host cell infected with mycoplasma, and mitochondrial DNA in the cytoplasm of the host cell. According to the method of the present invention, by directly using the DNA inside the host cell, the DNA of mycoplasma bound around the nucleus of the host cell can be used as an amplification target, thereby increasing detection sensitivity. In addition, since the mitochondrial DNA inside the host cell is used as an amplification target of an internal control sample, whether the sample has been sampled in an appropriate amount can be confirmed in a convenient manner, and furthermore, by comparing the band size between the internal control sample and the mycoplasma DNA, the degree of mycoplasma infection can be quantitatively confirmed.