Constants | Periodic Table The radius of the roll of paper shown in the figure (Figure 1) is 7.6 cm and its moment of inertia is I = 3.1x10-3 kg · m2 .A force of 2.5 N is exerted on the end of the roll for 1.3 s , but the paper does not tear so it begins to unroll. A constant friction torque of 0.13 m N is exerted on the roll which gradually brings it to a stop. Part A Assuming that the paper's thickness is negligible, calculate the length of paper that unrolls during the time that the force is applied (1.3 s ). Express your answer using two significant figures. ? Figure 1 of 1 m = 1 Submit Request Answer Part B Assuming that the paper's thickness is negligible, calculate the length of paper that unrolls from the time the force ends to the time when the roll has stopped moving. Express your answer using two significant figures.

The radius of the roll of paper shown in the figure (Figure 1) is 7.6 cm and its moment of inertia is I = 3.1×10⁻³ kg⋅m^2 . A force of 2.5 N is exerted on the end of the roll for 1.3 s , but the paper does not tear so it begins to unroll. A constant friction torque of 0.13 m⋅Nm⋅N is exerted on the roll which gradually brings it to a stop.

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Constants | Periodic Table The radius of the roll of paper shown in the figure (Figure 1) is 7.6 cm and its moment of inertia is I = 3.1x103 kg · m? .A force of 2.5 N is exerted on the end of the roll for 1.3 s , but the paper does not tear so it begins to unroll. A constant friction torque of 0.13 m · N is exerted on the roll which gradually brings it to a stop. Part A Assuming that the paper's thickness is negligible, calculate the length of paper that unrolls during the time that the force is applied (1.3 s ). Express your answer using two significant figures. Figure 1 of 1 m Submit Request Answer Part B Assuming that the paper's thickness is negligible, calculate the length of paper that unrolls from the time the force ends to the time when the roll has stopped moving. Express your answer using two significant figures.