Impact test apparatus and impact test method

What is claimed is: 1. An impact test apparatus comprising: a base plate including an upper surface on which a specimen is placed; a collision member that collides with the specimen; a dropping unit that drops the collision member from an upper area of the specimen to the specimen and adjusts a height that the collision member drops; a velocity measurement unit that measures a collision velocity of the collision member when the collision member collides with the specimen; and an evaluation unit that produces a representative value that is a collision velocity at which a probability of breakage of the specimen is about 50%, and evaluates an impact resistance of the specimen based on the representative value. 2. The impact test apparatus of claim 1 , wherein the evaluation unit produces the representative value based on at least one first collision velocity and at least one second collision velocity, the at least one first collision velocity is selected among collision velocities at which the specimen is not broken, and the at least one second collision velocity is selected among collision velocities at which the specimen is broken. 3. The impact test apparatus of claim 2 , wherein a number of first collision velocities selected among the collision velocities at which the specimen is not broken is equal to a number of second collision velocities selected among the collision velocities at which the specimen is broken. 4. The impact test apparatus of claim 2 , wherein the evaluation unit produces the representative value as an average value of the at least one first collision velocity and the at least one second collision velocity. 5. The impact test apparatus of claim 1 , further comprising a fixing member that fixes the specimen to the upper surface of the base plate and is movable in a direction perpendicular to a dropping direction of the collision member. 6. The impact test apparatus of claim 1 , wherein the dropping unit includes a clamping member that selectively clamps and unclamps the collision member so that the collision member is dropped towards the specimen. 7. An impact test apparatus comprising: a base plate having a side surface on which a specimen is placed; a collision member that collides with the specimen; a shooting unit that shoots the collision member from a side area of the specimen to the specimen and adjusts a shooting velocity of the collision member; a velocity measurement unit that measures a collision velocity of the collision member when the collision member collides with the specimen; and an evaluation unit that produces a representative value that is a collision velocity at which a probability of breakage of the specimen is about 50%, and evaluates an impact resistance of the specimen based on the representative value. 8. The impact test apparatus of claim 7 , wherein the evaluation unit produces the representative value based on at least one first collision velocity and at least one second collision velocity, the at least one first collision velocity is selected among collision velocities at which the specimen is not broken, and the at least one second collision velocity is selected among collision velocities at which the specimen is broken. 9. The impact test apparatus of claim 8 , wherein a number of first collision velocities selected among the collision velocities at which the specimen is not broken is equal to a number of second collision velocities selected among the collision velocities at which the specimen is broken. 10. The impact test apparatus of claim 8 , wherein the evaluation unit produces the representative value as an average value of the at least one first collision velocity and the at least one second collision velocity. 11. The impact test apparatus of claim 7 , further comprising a fixing member that fixes the specimen to the side surface of the base plate and is movable in a direction perpendicular to a shooting direction of the collision member. 12. The impact test apparatus of claim 7 , wherein the shooting unit includes: a supporting member extending in a shooting direction of the collision member, the supporting member including a groove in which the collision member is placed; and a rotating member that rotates about a rotational axis extending in a direction perpendicular to the shooting direction of the collision member, and contacts the collision member such that the collision member is shot to the specimen, the rotating member having an adjustable rotation speed. 13. An impact test method comprising: repeatedly colliding a collision member with a specimen; measuring collision velocities at which the collision member and the specimen collides; obtaining information about whether the specimen is broken when the collision member collides with the specimen; calculating a representative value representing a collision velocity at which a probability of breakage of the specimen is about 50%; and evaluating an impact resistance of the specimen based on the representative value. 14. The impact test method of claim 13 , wherein the repeatedly colliding of the collision member includes changing each of the collision velocities at which the collision member collides with the specimen. 15. The impact test method of claim 13 , wherein the repeatedly colliding of the collision member includes: colliding the collision member with a first specimen at a predetermined collision velocity; in case that the specimen is not broken, colliding the collision member with the first specimen at another collision velocity greater than the predetermined collision velocity, and in case that the first specimen is broken, replacing the first specimen with a second specimen, and colliding the collision member with the second specimen at another collision velocity less than the predetermined collision velocity. 16. The impact test method of claim 15 , wherein, the repeatedly colliding of the collision member further includes: in case that the first specimen is not broken, moving the first specimen such that a collision point of the collision member with respect to the first specimen is changed. 17. The impact test method of claim 16 , wherein the first specimen is moved in a direction perpendicular to a collision direction of the collision member. 18. The impact test method of claim 13 , wherein the representative value is calculated based on at least one first collision velocity and at least one second collision velocity, the at least one first collision velocity is selected among collision velocities at which the specimen is not broken, and the at least one second collision velocity is selected among collision velocities at which the specimen is broken. 19. The impact test method of claim 18 , wherein a number of first collision velocities selected among the collision velocities at which the specimen is not broken is equal to a number of second collision velocities selected among the collision velocities at which the specimen is broken. 20. The impact test method of claim 18 , wherein the calculating of the representative value includes calculating an average value of the at least one first collision velocity and the at least one second collision velocity.