Abstract: The object of present invention is to provide a chemiluminescent aerosol product that can easily form an expected quantity of a chemiluminescent composition which exhibits excellent storage stability, is stably self-held for a long period of time and achieves a good luminous effect. This aerosol product includes a double-structure container provided with a discharging mechanism for simultaneously discharging contents filled in two liquid concentrate filling spaces. A propellant filling space is filled with a propellant composed of a compressed gas, a first liquid concentrate filling space is filled with a first liquid concentrate composition containing an oxalic acid ester, a fluorescent substance and a thickener, and having a viscosity of 10,000-200,000 mPa·s (20° C.

Abstract: A multilayer ceramic capacitor includes: a multilayer structure in which internal electrodes and dielectric layers are alternately stacked; a first external electrode connected to a subset of the internal electrodes; and a second external electrode sandwiching the multilayer structure with the first external electrode in a first direction is connected to another subset of the internal electrodes, wherein t12×W1/N is equal to or more than 0.1, when a distance between a first edge positioned at outermost of the internal electrodes in a second direction intersecting with the first direction in a plane direction of the internal electrodes and the dielectric layers and a second edge positioned at innermost of the internal electrodes in the second direction is W1 (mm), each thickness of the plurality of dielectric layers is t1 (?m), and a stack number of the plurality of dielectric layers is N.

Abstract: The object of present invention is to provide a chemiluminescent aerosol product that can easily form an expected quantity of a chemiluminescent composition which exhibits excellent storage stability, is stably self-held for a long period of time and achieves a good luminous effect. This aerosol product includes a double-structure container provided with a discharging mechanism for simultaneously discharging contents filled in two liquid concentrate filling spaces. A propellant filling space is filled with a propellant composed of a compressed gas, a first liquid concentrate filling space is filled with a first liquid concentrate composition containing an oxalic acid ester, a fluorescent substance and a thickener, and having a viscosity of 10,000-200,000 mPa·s (20° C.

Abstract: A multilayer ceramic capacitor includes: a multilayer structure having an internal electrode and a dielectric layer alternately stacked; external electrodes provided on a first and second faces of the multilayer structure, wherein t12×L1/N is equal to or more than 0.1, when a distance between a first edge positioned at outermost of edges of the plurality of internal electrodes that are not connected to the first external electrode or the second external electrode in an array direction of the first external electrode and the second external electrode and a second edge positioned at innermost of edges of the plurality of internal electrodes that are not connected to the first external electrode or the second external electrode in the array direction is L1 (mm), each thickness of the plurality of dielectric layers is t1 (?m), and a stack number of the plurality of dielectric layers is N.

Abstract: A multilayer ceramic capacitor includes: a multilayer structure having an internal electrode and a dielectric layer alternately stacked; external electrodes provided on a first and second faces of the multilayer structure, wherein t12×L1/N is equal to or more than 0.1, when a distance between a first edge positioned at outermost of edges of the plurality of internal electrodes that are not connected to the first external electrode or the second external electrode in an array direction of the first external electrode and the second external electrode and a second edge positioned at innermost of edges of the plurality of internal electrodes that are not connected to the first external electrode or the second external electrode in the array direction is L1 (mm), each thickness of the plurality of dielectric layers is t1 (?m), and a stack number of the plurality of dielectric layers is N.

Abstract: A multilayer ceramic capacitor includes: a multilayer structure in which internal electrodes and dielectric layers are alternately stacked; a first external electrode connected to a subset of the internal electrodes; and a second external electrode sandwiching the multilayer structure with the first external electrode in a first direction is connected to another subset of the internal electrodes, wherein t12×W1/N is equal to or more than 0.1, when a distance between a first edge positioned at outermost of the internal electrodes in a second direction intersecting with the first direction in a plane direction of the internal electrodes and the dielectric layers and a second edge positioned at innermost of the internal electrodes in the second direction is W1 (mm), each thickness of the plurality of dielectric layers is t1 (?m), and a stack number of the plurality of dielectric layers is N.

Abstract: An image forming apparatus includes a toner image forming section, a detection section, a variation calculation section, a user setting acquisition section, an adjustment ratio calculation section, and an adjustment section. The toner image forming section forms a toner image. The detection section detects a toner density of the formed toner image. The variation calculation section obtains a variation in toner density based on the detected toner density. The user setting acquisition section acquires a user setting concerning a degree of adjusting the toner density. The user setting is set by a user. The adjustment ratio calculation section calculates an adjustment ratio which is a ratio at which the user setting is reflected, in accordance with the variation in toner density. The adjustment section adjusts the toner density based on the variation in toner density, the user setting, and the adjustment ratio.

Abstract: Provided is a control device including a reception unit that receives an instruction of an image quality adjustment from a user, a changing unit that changes, when the instruction is received by the reception unit, an image forming condition in an image forming section from a first condition to a second condition, and an output unit that outputs first information indicating the first condition and second information indicating the second condition in association.

Abstract: Provided is a control device including a reception unit that receives an instruction of an image quality adjustment from a user, a changing unit that changes, when the instruction is received by the reception unit, an image forming condition in an image forming section from a first condition to a second condition, and an output unit that outputs first information indicating the first condition and second information indicating the second condition in association.

Abstract: A downstream side fluid pressure is a fluid pressure of a fluid stagnation portion within a flow path that is internal to a regulator valve. A pressure ratio that is internal to the regulator valve is calculated from an upstream side fluid pressure, the downstream side fluid pressure, and a saturated vapor pressure for the fluid, calculated from a fluid temperature. A pressure ratio table that establishes relationships between a threshold value and a relative flow coefficient of the regulator valve, where the pressure ratio that is internal to the regulator valve, at the time at which the occurrence of cavitation within the regulator valve begins, is defined as the threshold value, is created and stored in a storing portion. The pressure ratio table is used to evaluate whether or not there is cavitation.

Abstract: An image forming apparatus includes an image reader that covers an image recorded material placed on a reading surface with an openable cover plate so as to press thereof and optically reads an image of the image recorded material, an image output unit that forms an image on a recording sheet and outputs the image, a detecting unit that detects an opened/closed state of the cover plate when the image output unit forms a gradation test image on the recording sheet, the recording sheet having the gradation test image formed thereon is placed on the reading surface of the image reader, and an operation of reading the gradation test image is performed, and a gradation correction unit that conducts a gradation correction of the image forming apparatus based on an image read by the image reader when the detecting unit detects the closed state of the cover plate.

Abstract: An image forming apparatus includes an image reader that covers an image recorded material placed on a reading surface with an openable cover plate so as to press thereof and optically reads an image of the image recorded material, an image output unit that forms an image on a recording sheet and outputs the image, a detecting unit that detects an opened/closed state of the cover plate when the image output unit forms a gradation test image on the recording sheet, the recording sheet having the gradation test image formed thereon is placed on the reading surface of the image reader, and an operation of reading the gradation test image is performed, and a gradation correction unit that conducts a gradation correction of the image forming apparatus based on an image read by the image reader when the detecting unit detects the closed state of the cover plate.