Can you answer questions 2,3 4 and 5.Thank you so much for your help
Can you answer questions 2,3 4 and 5.Thank you so much for your help Question 2...
Can you help me answer all these questions.thank you so much.your help is highly appreciated b) Determine the acceleration of the box Questions (2 marks) State Newton's First Law of Motion oure 2 shows a box puted by a force F on a rough horizontal surface The GOR es with constant velocity with presence of 5 N frictional force Figure 2 Ilustrate a labeled free-body diagram of the box. (4 marks) Determine the force, F. (3 marks) Compute the reaction...
Hi, I need the full worked solution for parts (ii) and (iii) of this question please :) The final answers to all parts are given below the questions. I do not need the solution to part (i). Thank you for your help! (Would greatly appreciate proper steps with clear handwriting thank you~) Question 5 A ladder of mass m may be modelled as a uniform rod of length a, stands on a rough horizontal surface at A and rests against...
1) Which term best describes an object's resistance to a change in motion A) Force B) Inertia C) Acceleration D) Resistance 2) Two skaters, Cathy and Mike, are standing on a frozen pond. Mike has twice the mass as Cathy. If Mike pushes to the left on Cathy, what can be said about the forces and accelerations on each person? A) Cathy experiences a force and acceleration to the left, while Mike experiences an equal force in the opposite direction....
Part 2 After reaching the top of the incline, the box of mass 1 kg is released, and allowed to slide back down the hill of incline angle 0 20 At the halfway point, the surface of the incline becomes rough, and friction becomes important The coefficients of friction between the box and hill are μ-: 0.7 and μ.-0.5. 0 20 D. Draw a free body diagram for the object as it moves down the incline as it encounters the...
Please give a detailed answer! QUESTION 5 [4 marks for (a) and (c); 2 marks for (b)] (a) Consider a block of weight W resting on a board of variable inclination angle e. Draw the free body diagram for the block under the following different conditions, also including the horizontal and vertical components of the force vectors and the relationship between the angle of inclination and angle of static friction: i no friction, ii no motion, motion impending, and iv....
So we are learning about the Free Body diagram and method but I don't fully understand how to apply the steps to the problem. 1st I have to identify all the forces acting such as gravity by drawing it out. 2nd I have to use that drawing and draw it in a free body diagram form in the x-axis and y-axis where the object is at the origin and that the forces are arrows and then rotate it the degree...
2)A cart is on a horizontal surface and there is no friction between the cart and the surface. Andrew pushes on the cart from the left. For each force acting on the cart, name the two interacting objects and describe the force using the following language with appropriate details provided for the underlined words: “(Object) exerts a (directional), (type of) force on (object).” >> 3)Draw a free body diagram for the cart in the above scenario. >> ...
A 6.52 kg object is at rest at the top of a rough surface that is inclined 25.3 degrees with respect to the horizontal. It is then released and slides down the surface, traveling 0.873m in 1.45s. a) Draw a free body diagram for the block and appropriately tilt/rotate its axes. b) Write Newton's laws of motion equations for the x and y components of the net force acting on the block and use these equations to find the coefficient...
A 6.52 kg object is at rest at the top of a rough surface that is inclined 25.3 degrees with respect to the horizontal. It is then released and slides down the surface, traveling 0.873m in 1.45s. a) Draw a free body diagram for the block and appropriately tilt/rotate its axes. b) Write Newton's laws of motion equations for the x and y components of the net force acting on the block and use these equations to find the coefficient...
AS/NOV 2019/TEST 2/PHY110 CONFIDENTIAL 9.81 ms Take the acceleration due to gravity g QUESTION 1 Block A and block were attached in a pulley system as shown in Figure 1 below. The mass, m of black As Iwice as block B When block A is released through the incline rough surface ( 30 and 0.21), block B is moving up with an acceleration of 5.25 ms Figure 1 a) Illustrate the free body diagram of the system above for Block...