N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm...
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N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3. N Consider the bicycle model in Figure 8.24. Suppose crank shaft is pedaled at 42 rpm and is connected to gear by a chain of fixed length. The gear is fixed to wheel 6. If r = 2rB=0.5rc = 0.1 m, how fast does the bike roll without slipping? If rg increases, does the bike roll faster or slower? B Figure 8.24 Problem 8.3.
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