1. A wagon on the ground (mass 60 kg) is stationary. a) What is the upward force F of the ground on the wagon? %3D b) If the wagon is pulled horizontally by a cord with a force T 240N that makes an angle of 60 degrees with the horizontal, and no other force is present, what is the acceleration of the wagon? %3D c) If the same wagon is pulled horizontally by the same force and angle as in part b), and the friction coefficient is u=0.3, what would the acceleration be in this case?

Can you please answer question 1 and all of the sub problems and show all of the steps to the solution 

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Transcription of the Image: 1. A wagon on the ground (mass = 6 kg), is stationary. a) What is the upward force (F) of the ground on the wagon? b) If the wagon is pulled horizontally by a cord with a force T = 240 N that makes an angle of 60 degrees with the horizontal and no other force is present, what is the acceleration of the wagon? c) If the same wagon is pulled horizontally by the same force and angle as in part b) and the friction coefficient μ = 0.3, what would the acceleration be in this case? 2. a) What must be the separation between a 5.2 kg body and a 2.4 kg body for their gravitational attraction to have a magnitude of F = 2.3x10^-12 N. b) Gravity on the moon is \( g_m = 1.625 \, \text{m/s}^2 \). What is the weight of a man who weighs 600 N on Earth. 3. A system consists of a vertical wheel (pulley) that is only allowed to rotate (spin). A cord is passed over the pulley and at each end there is a mass attached to the end of the cord. The mass attached on the left is \( m_1 = 0.8 \, \text{kg} \) and at the right the mass is \( m_2 = 0.5 \, \text{kg} \). a) Calculate both the Tension in the cord and the acceleration of the system. Neglect the friction between cord and wheel. b) What are the accelerations of both masses, if you cut the cord?