0:00:08.480,0:00:11.420
Unul dintre cele mai tari chestii [br]pe care le-am descoperit despre circuite

0:00:11.780,0:00:18.440
este ca ele pot fi o arta, adica daca as avea[br]o idee creativa, pot sa o ilustrez folosind circuite.

0:00:20.300,0:00:24.700
Asadar, daca ai idei, poti folosi tehnologia [br]pentru a le aduce la viata.

0:00:26.860,0:00:32.340
Fiecare intrare sau iesire a unui computer este de fapt un tip de informatie

0:00:32.340,0:00:37.240
care poate fi reprezentata [br]de semnalele electrice pornit sau oprit

0:00:37.240,0:00:39.060
Sau de 1 sau 0.

0:00:39.400,0:00:46.360
Ca sa poata procesa infomatia de intrare si sapoata procesa informatia de iesire,

0:00:46.360,0:00:49.920
Un computer are nevoie sa modifice si sa combine semnalele de intrare.

0:00:50.540,0:00:58.520
Pentru a face asta un computer foloseste milioane de componente electronice care impreuna formeaza circuitele.

0:01:03.040,0:01:08.460
Sa ne uitam mai atent la cum circuitele pot modifica si procesa informatie reprezentata de cifra 1 si 0

0:01:09.460,0:01:12.280


0:01:12.280,0:01:15.820


0:01:15.820,0:01:20.580


0:01:20.580,0:01:23.620


0:01:23.630,0:01:29.680


0:01:30.040,0:01:36.580


0:01:36.580,0:01:43.480


0:01:43.880,0:01:49.580


0:01:49.580,0:01:52.720


0:01:52.780,0:02:00.760


0:02:01.220,0:02:06.600


0:02:06.600,0:02:13.400


0:02:13.940,0:02:19.760


0:02:19.840,0:02:27.040


0:02:27.350,0:02:29.829


0:02:30.340,0:02:34.340


0:02:34.360,0:02:39.440


0:02:40.060,0:02:44.500


0:02:44.500,0:02:50.340


0:02:51.170,0:02:56.229


0:02:57.260,0:03:03.730


0:03:04.920,0:03:10.760


0:03:12.500,0:03:17.340


0:03:17.340,0:03:24.720


0:03:24.720,0:03:30.520


0:03:30.520,0:03:34.100


0:03:34.820,0:03:38.660


0:03:38.660,0:03:44.780


0:03:45.100,0:03:50.060


0:03:50.580,0:03:53.200


0:03:53.200,0:03:58.140


0:03:58.360,0:04:04.340


0:04:05.320,0:04:10.720


0:04:11.860,0:04:18.019


0:04:18.860,0:04:24.900


0:04:24.900,0:04:27.720


0:04:27.720,0:04:31.960


0:04:31.960,0:04:34.920