Two teams are engaging in a tug–of-war. The rope suddenly snaps. Which statement is true about the forces involved? a. The forces exerted by the two teams are no longer equal; the teams will accelerate in opposite directions as a result. b. The forces exerted by the players are no longer balanced by the force of tension in the rope; the teams will accelerate in opposite directions as a result. c. The force of gravity balances the forces exerted by the players; the teams will fall as a result d. The force of tension in the rope is transferred to the players; the teams will accelerate in opposite directions as a result.

Two teams are engaging in a tug–of-war. The rope suddenly snaps. Which statement is true about the forces involved? a. The forces exerted by the two teams are no longer equal; the teams will accelerate in opposite directions as a result. b. The forces exerted by the players are no longer balanced by the force of tension in the rope; the teams will accelerate in opposite directions as a result. c. The force of gravity balances the forces exerted by the players; the teams will fall as a result d. The force of tension in the rope is transferred to the players; the teams will accelerate in opposite directions as a result.

Related questions

Q: A 7.8 kg object experiences an acceleration of 1.3 m/s2. (a) What is the magnitude of the…

A: (a) Apply Newton’s second law of motion on the object, and solve for the magnitude of the resultant…

Q: When two objects are in contact with no relative motion, which of the following statements about the…

A: When the two systems are in contact and moving relative to one another, then the friction between…

Q: In an Atwood's machine, one block has a mass of 304.0 g, and the other a mass of 454.0 g. The…

A: A) Apply the second kinematic equation for the block of mass 304.0 g and substitute the required…

Q: 4. A parachutist reaches terminal speed when? a, Her weight goes to zero b. The force of air…

Q: The Earth exerts a downward force on a pen of mass m that is resting on a table; the magnitude of…

Q: That same 80 kg object is sliding across the table because you are applying a force of +300 N. If…

A: Given data: Mass (m) = 80 kg Applied force ( F) = +300 N Coefficient of friction (μ) = 0.3 Required:…

Q: Sam pushes a crate across a level floor at a constant speed with a horizontal force. Gravity,…

A: 1) The net force acting on the crate is, F-f=FnetF-f=maa=0, constant speedF-f=0F=f thus, . The force…

Q: A student is pulling a crate with a mass of 20.0 kg along a horizontal frictionless floor with a…

Q: m1 m2

Q: Object A is attached to another object B by a massless taut rope. Object A is moving down a rough…

A: From the above free body diagram Let Tension on B be Tb Let mass of the block B be Mb And…

Q: 2. Draw a free-body diagram of a 1130-kg car that is held in place by a light cable on a very smooth…

A: In the following problem, we have: Mass of the car, m=1130 kg Angle of the ramp with the horizontal…

Q: Q2. Two masses are connected by a strong rope over a frictionless pulley where m₁ = 12.5 kg is on an…

A: The two masses are connected by a single rope over a pulley. The mass m1=12.5 kg is resting on an…

Q: A 62-kg skier speeds down a trail, as shown in the figure. The surface is smooth and inclined at an…

A: a) Free body diagram of the Skier:

Q: A person stands on a scale in an elevator. As the elevator starts, the scale has a constant reading…

A: When the elevator is accelerating in upward direction ( as the elevator starts ) , the free body…

Q: Q1. A 6.2 kg body experiences an acceleration of 4.1 m/s2. (a) What is the magnitude of the…

A: Values given in the question are as follow; m=6.2 kga=4.1ms2 Formula of net force acting on an…

Q: A weightlifter pulls a 200 kg chunk of stone with constant velocity of 0.75 m/s on a horizontal…

Q: a) A dockworker applies a constant horizontal force of 65.0N to a block of ice on a smooth…

Q: Which statement describes the effect of an inclined plane on the amount of force required to push an…

A: let F is the force to push the object on horizontal surface but on inclined plane , force is…

Q: 200 n 400 n 30

A: Newton's second law of motion states that the acceleration of an object is directly proportional to…

Q: A freight train has a mass of 15000 kg. If the locomotive can exert a constant pull of 6000 N, how…

Q: 2. Three blocks are lined up in a row on a frictionless table. All three blocks are pushed forward…

A: Solution: given that m1 = 1 kg m2 = 2 kg m3 = 3 kg F = 12 N

Q: Q1: A car's engine exerts a force of 720 N to the right. What is the resultant force acting on the…

A: Recall F=ma Ffr=μN

Q: blocks whose masses are 10 kg and 3 kg are connected by a light rope whose pulley has no friction.…

Q: You are inside an elevator standing on a scale. You do not know anything about the motion of the…

Q: You are trying to push your stalled car.Although you apply a horizontal force of 400 N to the car,…

A: Given : Horizontal force applied by you to the car = 400 N

Q: I. According to Newton's Second Law, the acceleration is directly proportional to the sum of the…

A: Given, Two blocks of mass m1 and m2

Q: 1. Three blocks mį, m2, and m3 with mass 1.0 kg, 2.0 kg and 3.0 kg, respectively, are connected as…

Q: A man stands on a spring scale in a moving elevator and notices that the scale reading is 20% larger…

Q: A 1569 kg car is driving on a dry, level asphalt road. A deer runs across the road in front of the…

A: Hey, since there is multiple subpart question posted, we will answer first three questions. If you…

Q: A 7.1 kg object experiences an acceleration of 2.1 m/s2. (a) What is the magnitude of the resultant…

A: Given:- A 7.1 kg object = m acceleration = 2.1 ms2 To determine:- (a) Magnitude of the resultant…

Q: 1. A 25-kg box is attached to two light ropes and is being pulled in a frictionless, horizontal…

A: Mass of the block is m = 25 kg Force acting on the block in east direction is F1 = 15 N Force acting…

Q: An elevator is pulled upward at a constant speed by a cable. Which statement is true about the…

A: The correct answer is (c), i.e., The net force on the elevator is zero. As the elevator is being…

Q: Three identical 4.0-kg cubes sit on a horizontal frictionless surface. They are in contact with one…

Q: wo crates A and B are connected by a light rope along the horizontal surface. Mass of A is 4kg and…

Q: Which of the following is false in regards to pulling an object across the floor with a rope above…

A: The free-body diagram is shown below. Here, N is the normal force, F is the applied force, and m is…

Q: A box remains stationary after it has been placed on a ramp inclined to the horizontal. Which of the…

A: Disclaimer: “Since you have asked multiple question, we will solve the first question for you. If…

Q: You throw a beach ball( a large, lightweight plastic ball) upward as hard as you can. If you were…

A: Once the ball is released from hand then there is no more force of hand. Hence we don't need to…

Q: A worker pulls a large 80 kg box to the right across a frictionless floor with a 200 N force applied…

A: Since you have asked multiple questions, we will solve the first question for you. If you want any…

Q: Which of the following statements is correct regarding an apple hanging on a tree on earth? a. The…

A: Given : Asked to choose the correct option. Given question is : Which of the following statements is…

Q: A horse pulls a cart with force F.As a result of this force the cart accelerates with constant…

A: Step1 - Here we will understand the concept that will be used to solve the question.…

Q: Starting from rest, a 150 kg body experiences a force of 100 newtons acting on it in a direction…

A: It is stated that an object that has a mass of 150 kg is facing force from two directions. One is a…

Q: A slab of mass m1 rests on a frictionless floor, and a block of mass m2 rests on top of the slab as…

A: Given, Mass of slab is m1 and mass of box is m2

Question

Two teams are engaging in a tug–of-war. The rope suddenly snaps. Which statement is true about the forces involved?

a. The forces exerted by the two teams are no longer equal; the teams will accelerate in opposite directions as a result.

b. The forces exerted by the players are no longer balanced by the force of tension in the rope; the teams will accelerate in opposite directions as a result.

c. The force of gravity balances the forces exerted by the players; the teams will fall as a result

d. The force of tension in the rope is transferred to the players; the teams will accelerate in opposite directions as a result.

Expert Solution