Final answer:
In the 'Tug of War' scenario, Team 'B' is likely to win because they've applied a force that is twice as much as Team 'A'. This is directly related to Newton's Second Law of Motion, stating that the force on an object is equivalent to its mass times its acceleration.
Step-by-step explanation:
In a game of 'Tug of War', the team that applies the greater force typically wins. In this scenario, Team 'B' has exerted twice as much force (2F) compared to Team 'A' (F). Thus, Team 'B' is likely to win the game because they've applied more force on the rope towards their side.
'Tug of War' is a practical illustration of the concept of 'Newton's Second Law of Motion', which states that the force applied on an object is equal to the mass of the object times its acceleration (F=ma). In this case, the 'object' is the rope, and the 'force' is the tug exerted by each team. Because Team 'B' is exerting more force, they will cause greater acceleration of the rope towards their side, signifying a win.
Learn more about Forces and Motion