Problem 1: Consider the configuration and the data in the Figure. Two blocks of different masses are, first,at rest joined by a spring of elastic constant k. The latter is compressed by a length Ax with respect to itslength of equilibrium. The blocks are then released and the spring pushes them until the blocks reach thevelocities specified in the figure.a) Find the velocity of the block of mass m₁.Option A:Option B:Option C:Option D:b) Compute the work done by the elastic force.Option A: Option B:Option C:Option D:m1m2m₁V₁Before000000001AfterData: Ax 0.5 m, k = 1 N/m, m₁ = 1 kg, m₁ = 2 kgm2

Step 1: Step 2: Step 3: Step 4:

Answered: Problem 1: Consider the configuration…

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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SHOW COMPLETE SOLUTIONS, EQUATIONS, FORMULAS AND WITH DIAGRAMS. WRITE LEGIBLY. I WILL UPVOTE EVERYTHING
Given the arrangement of charged particles in the figure below, find the net electrostatic force on the q1 = 5.25-µC charged particle. (Assume q2 = 13.33 µC and q3 = -22.12 µC. Express your answer in vector form.) %3D (1.00 cm, 1.00 cm) 92 (-2,00 cm, 0) (0, — 1.00 сm) 93
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this is a multi step problem but I am just having trouble with this part of the problem. Here are the values that I correctly calculated: mass of particle 1=6 kg initial velocity for particle 1= 185i+138j final velocity for particle 1= -68.89i+-50.67j F21=-15.9e-t/96i+-100sin(2πt/96)j I am trying to find: What is the x displacement for particle 1? I think that I need to use Newtons second law to get an expression for acceleration, and then integrate but I am not getting the right answers.
Consider the collision pictured below. While m₂ = 7kg is initially at rest, horizontally moving m₁ = 6kg with a speed of v₁ = 13m/s collides with it. After the collision, the two masses scatter with speeds of u = 8.2m/s and ₂2. If 0₁ = 37°, determine the speed of m₂ after the collision, ₂ =?. Express your answer in units of m/s with one decimal place. Note: Please note that we do not know whether or not this is an elastic collision. Just (m₁) Answer: before the collision U₁ m₂ at rest Just after the collision U₁ U₂² "
A block of mass m = 1.60 kg, initially moving to the right with a velocity of 14.00 m/s on a %3! frictionless horizontal track, collides with a massless spring attached to a second block of mass m2 = 2.10 kg moving to the left with a velocity of -2.50 m/s, as shown in the figure below. The spring has a spring constant of 600 N/m. Determine the velocity of block 2 at the instant when block 1 is moving to the right with a velocity of +3.00 m/s. v=4.00 m/s Va =-2.50 m/s
A 1-kilogram mass X and a 2-kilogram mass Y are pushed together against a spring and tied with a cord.When the cord breaks, the 1-kilogram mass X moves to the right at 5.92 m/s.What is the velocity of the 2-kilogram mass Y? A zero B 2.96 m/s to the left 11.84 m/s to the left D 11.84 m/s to the right E 2.96 m/s to the right
Use vectors to solve the following problems. Both cars weigh 1500 kg. Use the scale 1 cm = 1,000 kg x m/s. Assume all collisions to be elastic and sticking. Draw a picture represents the problem too. The first car is travelling at 20 m/s east. The second car is travelling at 30m/s north. Using vectors draw to scale the component vectors and the resultant from their collision. Then solve using your trigonometric functions. Also: use Pythagorean Theorem
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