Multilayer ceramic capacitor

I claim: 1. A multilayer ceramic capacitor, comprising: (1) a capacitor body having a first face and a second face that are facing each other in a length direction, a third face and a fourth face that are facing each other in a width direction, and a fifth face and a sixth face that are facing each other in a height direction, as well as a built-in capacitive part constituted by multiple first internal electrode layers and multiple second internal electrode layers stacked alternately with dielectric layers in between in the height direction, wherein the number of the dielectric layers is at least 15; (2) a first external electrode having a first part along the first face, and a second part along the fifth face, of the capacitor body, where ends of the multiple first internal electrode layers are exposed on the first face and connected to the first part, respectively; and (3) a second external electrode having a first part along the second face, and a second part along the fifth face, of the capacitor body, where ends of the multiple second internal electrode layers are exposed on the second face and connected to the first part, respectively; wherein the first face of the capacitor body has a concave shape along the height direction and the first part of the first external electrode contacts the first face of the capacitor body; and wherein while the second face of the capacitor body has a concave shape along the height direction and the first part of the second external electrode contacts the second face of the capacitor body. 2. The multilayer ceramic capacitor according to claim 1 , wherein the first and second internal electrode layers are made of a good conductor whose primary component is copper, palladium, platinum, silver, gold, or alloy of the foregoing. 3. The multilayer ceramic capacitor according to claim 1 , wherein: the first external electrode is of roughly L shape constituted by a first part contacting the first face and a second part continuing from the first part and contacting the fifth face, and the second external electrode is of roughly L shape constituted by a first part contacting the second face and a second part continuing from the first part contacting the fifth face. 4. The multilayer ceramic capacitor according to claim 1 , wherein the capacitor body has dimensions satisfying a relationship of “W>L>H” wherein W, L, and H are dimensions in the width direction, the length direction, and the height direction, respectively. 5. The multilayer ceramic capacitor according to claim 1 , wherein the first and second external electrodes are each constituted by a base film, a surface film, and an intermediate film disposed between the base film and the surface film, wherein the base film, the surface film, and the intermediate film are constituted by a good conductor whose primary component is copper. 6. A multilayer ceramic capacitor, comprising: (1) a capacitor body having a first face and a second face that are facing each other in a length direction, a third face and a fourth face that are facing each other in a width direction, and a fifth face and a sixth face that are facing each other in a height direction, as well as a built-in capacitive part constituted by multiple first internal electrode layers and multiple second internal electrode layers stacked alternately with dielectric layers in between wherein the number of the dielectric layers is at least 15; (2) a first external electrode having a first part along the first face, and a second part along the fifth face, of the capacitor body, where ends of the multiple first internal electrode layers are connected to the first part, respectively; and (3) a second external electrode having a first part along the second face, and a second part along the fifth face, of the capacitor body, where ends of the multiple second internal electrode layers are connected to the first part, respectively; wherein the first face of the capacitor body has a concave shape and the first part of the first external electrode contacts the first face of the capacitor body; wherein the second face of the capacitor body has a concave shape and the first part of the second external electrode contacts the second face of the capacitor body; and wherein the maximum length-direction dimension Dmax and minimum length-direction dimension Dmin satisfy a condition “0.90≤Dmin/Dmax≤0.98,” where Dmax represents a maximum length-direction dimension between the concave-shaped first face and concave-shaped second face of the capacitor body, and Dmin represents a minimum length-direction dimension between the concave-shaped first face and concave-shaped second face of the capacitor body. 7. The multilayer ceramic capacitor according to claim 6 , wherein the first and second internal electrode layers are made of a good conductor whose primary component is copper, palladium, platinum, silver, gold, or alloy of the foregoing. 8. The multilayer ceramic capacitor according to claim 6 , wherein: the first external electrode is of roughly L shape constituted by a first part contacting the first face and a second part continuing from the first part and contacting the fifth face, and the second external electrode is of roughly L shape constituted by a first part contacting the second face and a second part continuing from the first part contacting the fifth face. 9. The multilayer ceramic capacitor according to claim 6 , wherein the capacitor body has dimensions satisfying a relationship of “W>L>H” wherein W, L, and H are dimensions in the width direction, the length direction, and the height direction, respectively. 10. The multilayer ceramic capacitor according to claim 6 , wherein the first and second external electrodes are each constituted by a base film, a surface film, and an intermediate film disposed between the base film and the surface film, wherein the base film, the surface film, and the intermediate film are constituted by a good conductor whose primary component is copper. 11. A multilayer ceramic capacitor, comprising: (1) a capacitor body having a first face and a second face that are facing each other in a length direction, a third face and a fourth face that are facing each other in a width direction, and a fifth face and a sixth face that are facing each other in a height direction, as well as a built-in capacitive part constituted by multiple first internal electrode layers and multiple second internal electrode layers stacked alternately with dielectric layers in between wherein the number of the dielectric layers is at least 15; (2) a first external electrode having a first part along the first face, and a second part along the fifth face, of the capacitor body, where ends of the multiple first internal electrode layers are connected to the first part, respectively; and (3) a second external electrode having a first part along the second face, and a second part along the fifth face, of the capacitor body, where ends of the multiple second internal electrode layers are connected to the first part, respectively; wherein the first face of the capacitor body has a concave shape and the first part of the first external electrode contacts the first face of the capacitor body; wherein the second face of the capacitor body has a concave shape and the first part of the second external electrode contacts the second face of the capacitor body; wherein a thickness of the first part of the first external electrode is greater than a maximum depth of the concave-shaped first face of the capacitor body, and a thickness of the first part of the second external electrode is greater than a maximum depth of the concave-shaped second face of the capacitor body; a