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Introducción a la medida. Energía

Introducción a la medida. Energía. U.1 La medida de las magnitudes. A.6 Expresando medidas en unidades básicas. Expresa en unidades básicas del SI. 12 hm = 12 · 10 2 m = 1 200 m. 16 km = 16 · 10 3 m = 16 000 m. 60 cm = 60 · 10 –2 m = 0,60 m. 160 mm = 160 · 10 –3 m = 0,160 m.

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Introducción a la medida. Energía

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  1. Introducción a la medida. Energía U.1 La medida de las magnitudes A.6 Expresando medidas en unidades básicas

  2. Expresa en unidades básicas del SI 12 hm = 12 · 102 m = 1200 m 16 km = 16 · 103 m = 16000 m 60 cm = 60 · 10–2 m = 0,60 m 160 mm = 160 · 10–3 m = 0,160 m 6 t = 6 · 103 kg = 6000 kg 4000 g = 4000 · 10–3 kg = 4 kg 720 mg = 720 · 10–6 kg = 0,000 720 kg 0,8 dag = 0,8 · 10-2 kg = 0,008 kg 800 cm2 = 800 · 10–4 m2 = 0,08 m2 14 hm2 = 14 · 104 m2 = 140000 m2

  3. Expresa en unidades básicas del SI 80 m2 = 80 m2 200 dm2 = 200 · 10–2 m2 = 2 m2 3000 cm3 = 3000 · 10–6 m3 = 0,003 m3 60 mm3 = 60 · 10–9 m3 = 0,000 000 06 m3 0,06 dam3 = 0,06 · 103 m3 = 60 m3 5 m3 = 5 m3 180 mL = 180 cm3 = 180 · 10–6 m3 = 0,000 18 m3 24 cL = 24 · 10–2 L = 24 · 10–2 dm3 = 24 ·10-2 · 10–3 m3 = 0,000 24 m3 10 L = 10 dm3 = 10 · 10–3 m3 = 0,01 m3 2,5 hL = 2,5 · 102 L = 2,5 · 102 dm3 = 2,5 · 102 · 10–3 m3 = 2,5 · 10–1 m3= 0,25 m3

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