4.39 4.39 Tuo crntes, one with mass 4.00 kg and the other with mass 6.00 kg. sit on the frictionless surface of a frozen pond, con- nectad by a light rope (Fie. P.39. A woman wearing golf shoes for traction pulls horizoatally on the 6.00-kg crate with a force F that gives the crate an acceleratice of 2.90 m/s. (a What is the acceleration of the 4.00-kg crate? (b) Draw a free-body diagram for the 4.00-kg crate. Use that diagram and Newton's second law to find the tension T in the rope that connects the two crates. c Daw a fe body diagram for the 6.00-kg crate. What is the direction of the net force on the 6.00-kg crate? Which is larger in magnitude, T or F Use part (c) and Newton's second law to calculate the maenitude of F Figure P39 6.00 kg 4.00 k 39. Two crates, one with mass 4.00 kg and the other with mass 6.00 kg, sit on the frictionless surface of a frozen pond, connected by a light rope (Fig. P4.39). A woman wearing golf shoes (for traction) pulls horizontally on the 6.00-kg crate with a force F that gives the crate an acceleration of 2.90 m/s. A). What is the acceleration of the 4.00-kg crate? B). Draw a free-body diagram for the 4.00-kg crate. Use that diagram and Newton's second law to find the tension T in the rope that connects the two crates. C). Draw a free-body diagram for the 6.00-kg crate. What is the direction of the net force on the 6.00-kg crate? Which is larger in magnitude, T or F? D). Use part C and Newton's second law to calculate the magnitude ofF.

Two crates, one with mass 4.00 kg and the other with mass 6.00 kg, sit on the frictionless surface of a frozen pond, connected by a light rope (Fig. P4.39). A woman wearing golf shoes (for traction) pulls horizontally on the 6.00-kg crate with a force F that gives the crate an acceleration of 2.90 m/s^2. A). What is the acceleration of the 4.00-kg crate? B). Draw a free-body diagram for the 4.00-kg crate. Use that diagram and Newton’s second law to find the tension T in the rope that connects the two crates. C). Draw a free-body diagram for the 6.00-kg crate. What is the direction of the net force on the 6.00-kg crate? Which is larger in magnitude, T or F? D). Use part C and Newton’s second law to calculate the magnitude of F.

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4.39 4.39 - Tu cotes. opeith mass 00 ke and the other with mass 6.00 kg. sit on the frictionless surface of a frozen pood, con- nectad by a lig ht rope (Fie P4.39. A woman wearing golf shoes for tractionl pulls horizoatally cn the 6.00-kg crate with a force F that gives the crate an acceleraticn of 2.90m/s (a) What is the acceleration of the 4.00-ka crate? (b) Draw a free-body diagram for the 4.00-kg crate. Use that diagram and Newton's second law to find the teasion T in the rope that connects the two crates. Daw a free-body diagram for the 6.00-kg crate. What is the direction of the net force on the 6.00-kg crate? Which is larger in magnitude, T or F d Use part (c) and Newton's second law to calculate the maenitude of F Figure P.30 00 ks 6.00 kg 4.39. Two crates, one with mass 4.00 kg and the other with mass 6.00 kg, sit on the frictionless surface of a frozen pond, connected by a light rope (Fig. P4.39). A woman wearing golf shoes (for traction) pulls horizontally on the 6.00-kg crate with a force F that gives the crate an acceleration of 2.90 m/s. A). What is the acceleration of the 4.00-kg crate? B). Draw a free-body diagram for the 4.00-kg crate. Use that diagram and Newton's second law to find the tension T in the rope that connects the two crates. C). Draw a free-body diagram for the 6.00-kg crate. What is the direction of the net force on the 6.00-kg crate? Which is larger in magnitude, T or F? D). Use part C and Newton's second law to calculate the magnitude ofF