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The figure is just mass

  1. I can't seem to figure this out, I know that neutrinos have nonzero mass but I don't know how that can help me figure this outTh
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    2. Kaitlyn asked by Kaitlyn
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  2. A 1-kg mass (the blue mass) is connected to a 9-kg mass (the green mass) by a massless rod 70 cm long, as shown in the figure. A
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    2. deb asked by deb
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  3. A 1-kg mass (the blue mass) is connected to a 9-kg mass (the green mass) by a massless rod 67 cm long, as shown in the figure. A
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    2. hania asked by hania
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  4. A 1-kg mass (the blue mass) is connected to a 8-kg mass (the green mass) by a massless rod 67 cm long, as shown in the figure. A
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    2. hania asked by hania
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  5. A 1-kg mass (the blue mass) is connected to a 9-kg mass (the green mass) by a massless rod 67 cm long, as shown in the figure. A
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    2. Anonymous asked by Anonymous
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  6. A 1-kg mass (the blue mass) is connected to a 9-kg mass (the green mass) by a massless rod 67 cm long, as shown in the figure. A
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    2. please asked by please
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  7. The figure is just mass A on top of mass B. There are no forces or anything shown.Block A, of mass 3.2 kg, is on block B, of
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    2. Ana asked by Ana
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  8. a textbook has 2,000 g mass/ 4,000 cm to the 3rd pwr what is the densityhow do you figure this out I went home sick today and
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    2. Nickole asked by Nickole
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  9. Calculate the mass needed in order to suspend the leg shown in the figure(Figure 1) . Assume the leg (with cast) has a mass of
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    2. Megan asked by Megan
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  10. Calculate the mass m needed in order to suspend the leg shown in the figure(Figure 1) . Assume the leg (with cast) has a mass of
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    2. Charles asked by Charles
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