Dynamical changes in fires over the past few decades as a result of changes in housing condition. Fire flame and smoke spread quickly because of decreasing compartment in house. The oxygen that can grow fire increase as the housing size is bigger and bigger. these days because the contents of house is constructed with plastic, composite material and polymeric material, fire growth velocity and flash-over reached time is faster. Because most house is constructed with lightweight material, the collapse risk of house is higher. This means that evacuation and fire-fighting time become short. This study conducted a real fire test on an ordinary house that have more damage of human life than other fire. The fire development process and temperature distribution were investigated during the real test. As a result of the test, fire development is influenced by the height of flame, the kind of combustibles, the amount of combustibles, the placement of combustibles and ventilation condition. The flash over was reached 4, 15 minute after ignition, and 5, 3 second at 500~600℃ section. At before flash over, 400~500℃ section average temperature was 450.2℃, 426.5℃ and growth time was 3 second, 10 second. this shows that if combustion velocity is fast, the temperature rise is sharp. At after flash over, 600℃~max. temperature section average temperature was 729.8℃, 757.5℃ and growth time was 69 second, 150 second. this shows that if average and max. temperature is high, the fire load is large.