You hold your physics textbook in your hand. (Assume that no other objects are in contact with the book.) (a) Identify the forces acting on the book. (Select all that apply.) book on hand hand on book floor on book earth on book (b) Identify the forces acting on the book. (Select all that apply.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (c) Identify the forces acting on your hand. (Select all that apply.) book on hand hand on book floor on hand earth on hand (d) For each force you identified in part (c), indicate the direction. (If a force is not applicable, choose NA.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (e) Identify the forces that form the action-reaction pair as defined by Newton's third law. earth on hand - floor on hand, floor on book, book on hand and hand on earth hand on Book - floor on hand, floor on book, book on hand and hand on earth
You hold your physics textbook in your hand. (Assume that no other objects are in contact with the book.) (a) Identify the forces acting on the book. (Select all that apply.) book on hand hand on book floor on book earth on book (b) Identify the forces acting on the book. (Select all that apply.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (c) Identify the forces acting on your hand. (Select all that apply.) book on hand hand on book floor on hand earth on hand (d) For each force you identified in part (c), indicate the direction. (If a force is not applicable, choose NA.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (e) Identify the forces that form the action-reaction pair as defined by Newton's third law. earth on hand - floor on hand, floor on book, book on hand and hand on earth hand on Book - floor on hand, floor on book, book on hand and hand on earth
You hold your physics textbook in your hand. (Assume that no other objects are in contact with the book.) (a) Identify the forces acting on the book. (Select all that apply.) book on hand hand on book floor on book earth on book (b) Identify the forces acting on the book. (Select all that apply.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (c) Identify the forces acting on your hand. (Select all that apply.) book on hand hand on book floor on hand earth on hand (d) For each force you identified in part (c), indicate the direction. (If a force is not applicable, choose NA.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA (e) Identify the forces that form the action-reaction pair as defined by Newton's third law. earth on hand - floor on hand, floor on book, book on hand and hand on earth hand on Book - floor on hand, floor on book, book on hand and hand on earth
You hold your physics textbook in your hand. (Assume that no other objects are in contact with the book.)
(a) Identify the forces acting on the book. (Select all that apply.)
book on hand
hand on book
floor on book
earth on book
(b) Identify the forces acting on the book. (Select all that apply.)
book on hand - Up, Down NA
hand on book - Up, Down NA
floor on book - Up, Down NA
earth on book - Up, Down NA
(c) Identify the forces acting on your hand. (Select all that apply.)
book on hand
hand on book
floor on hand
earth on hand
(d) For each force you identified in part (c), indicate the direction. (If a force is not applicable, choose NA.) book on hand - Up, Down NA hand on book - Up, Down NA floor on book - Up, Down NA earth on book - Up, Down NA
(e) Identify the forces that form the action-reaction pair as defined by Newton's third law.
earth on hand - floor on hand, floor on book, book on hand and hand on earth
hand on Book - floor on hand, floor on book, book on hand and hand on earth
Definition Definition Fundamental law of forces which states: “For every action, there is an equal and opposite reaction." In other words, whenever one body exerts a force on a second body, the second body exerts an oppositely directed force of equal magnitude on the first body. It is also called the “action-reaction law” and was defined by Sir Isaac Newton.
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