Question 3 - Particle A of mass 100 kg is located at < 11, 5, 10 > m. Particle B of mass 380 kg is located at < 13, 14, 7 > m. The relative position vector pointing 1) from the particle A to particle B TAB= < 2) particle B TAB= 3) particles A an Bis The distance between particle A and m > m the gravitational force between 4) In the formula sheet provided which equation can be used to calculate the gravitational force exerted by particle A on particle B. ◆ The magnitude of the gravitational 5) force exerted by particle A on particle B F grav |= 6) The magnitude of the gravitational force exerted by particle B on particle A || F grav | = | N N 7) If the distance between the particles were 4 times larger. The magnitude of the gravitational force between particle A and particle B |F grav |=| N

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Question 3 - Particle A of mass 100 kg is located at < 11, 5, 10 > m. Particle B of mass 380 kg is located at < 13, 14, 7 > m. The relative position vector pointing 1) from the particle A to particle B TAB= < 2) particle B TAB= 3) particles A an Bis The distance between particle A and m > m the gravitational force between 4) In the formula sheet provided which equation can be used to calculate the gravitational force exerted by particle A on particle B. ◆ 5) The magnitude of the gravitational force exerted by particle A on particle B F grav |= N 6) The magnitude of the gravitational force exerted by particle B on particle A || F grav | = | N 7) If the distance between the particles were 4 times larger. The magnitude of the gravitational force between particle A and particle B |F grav |=| N