6. When the system is in motion how does the acceleration of the hanger compare to...
when a system is in motion, how does tension in the string compare to the total hanging weight? is the tension equal to the total hanging weight, less than or greater? ere me is the total mass of the entire system (the cart plus the masses plus the hanger), and w, is ti aging weight. y
Lab Activity: Newton's Second Law The goal of this exercise is to examine a system of connected objects and verify that Newton's second law correctly describes the motion. Work through the following sections answering all questions and filling in all blanks and charts directly on these sheets. Make sure that you follow the instructions carefully. Apparatus The setup consists of a cart on a track, a smart pulley, a hanger, various masses, and a computer. The motion of the cart...
Table 4.2: Force and acceleration. kg Total mass of the system Mass on the hanger (kg) Net force on the system (N) Acceleration Trial 1 (m/s) Acceleration Trial 2 (m/s) Acceleration Trial 3 (m/s) Average acceleration (m/s) 0.685 0.612 0.655 0.005 0.883 0.857 0.009 0.861 0.948 0.928 0.927 0.013 1.34 1.42 1.43 0.023 1.67 1.77 1.75 0.043 Correlation: Intercept: Slope: MEASUREMENTS 1. Record the total mass of the hanging objects in the first column of Table 4.2. Calculate the weight...
Mech HW-14 Acceleration in one dimension 3. Describe the motion of an object: a. for which the direction of the acceleration is the same as the direction of motion of the object. b. for which the direction of the acceleration is oppo site to the direction of motion of the ob c. for which the change in velocity is zero. d. for which the initial velocity is zero but the acceleration is not zero. 4. Two carts roll toward each...
1] As a projectile is flying (following the standard projectile motion seen in class), it lodes for an unknown reason not due to external intervention. Which one of suddenly exp the following statements is correct? Only one of them is. A Both kinetic energy and linear momentum are conserved B Kinetic energy is conserved, but linear momentum may not be conserved. C Neither linear momentum nor kinetic energy are conserved. D Linear momentum is conserved, but kinetic energy may not...
Question 2 According to Newton's Laws of Motion, if I throw a baseball in outer space - far from any other object- how will that ball move over time? (For the sake of this problem, let's neglect my mass) After the force of my hand no longer acts on the ball: Question 2 options: the ball will move forward, but it will gradually slow down and come to a stop once the force of my hand no longer acts on...
the question is in last picture. i provided the lab content... I need guidance. thank you. INVESTIGATION 10 ROTATIONAL MOTION OBJECTIVE To determine the moment of inertia I of a heavy composite disk by plotting measured values of torque versus angular acceleration. THEORY Newton's second law states that for translational motion (motion in a straight line) an unbalanced force on an object results in an acceleration which is proportional to the mass of the object. This means that the heavier...
I need questions 8-11. Thank you. comp Atwood's Machine Equipment Qty Equipment 1 Mass and Hanger Set 1 Photogate with Pully Photogate with Pully 1 Universal Table Clamn 1 Large Rod 1 Small Rod 1 Double rod Clamp I 1 String Part Number ME-8979 ME-6838A ME-9376B ME-8736 ME-8977 ME-9873 Background Newton's 2 Law (NSL) states that the acceleration a mass experiences is proportional to the net force applied to it, and inversely proportional to its inertial mass la t )....
how to find abs error of time 25 ? help me fill out the blanks and show calculation of F centripetal... Centripetal Force and Acceleration For a body in motion to ch force on a body is in the sa acceleration in that the speed i direction opposite to that of the velocit undergoing negative acceleration. In thes speed, not direction. In this lab we lo wdy in motion to change either its speed or direction, a force is required....
PLEASE ANSWER ALL PARTS Your 15 year old is about to get their driving permit, and you are concerned about the bumpers on your cars as they are expensive to fix, even after low speed impacts. You decide you want to engineer a true “5 mph” bumper that will slow a collision with a fixed object using a spring attachment, which will avoid damaging the car’s actual bumper. You find out that springs with high spring constant values are very...