Please help me with questions iv, v, and vi ForceCart IMass - MLab Set Up #1SensorLab Set Up #2ForceCart 2Mass -3.SMSensorIn a physics lab student have two different setups. Each setup has a frictionless cart connect to an identical massless spring. For each trialthe springs are compressed against a force sensor mounted to the track. Each spring is compressed from the equilibrium position x, to thecompresses position x. When the released cart returns to position x, the spring is no longer in contact with the force sensor. The forcesensor is set to record force and time information. Another student makes the following claim."Because each cart is being pushed by identical springs over identical distances, both cart 1 and cart 2 will experience the same impulse,so the F vs. t graphs will look the same for each cart."(b) Indicate whether the claim is correct or incorrect and explain why.iv. How will the average force exerted on the 1M cart compare to the 3.5M cart?v. Which cart will experience the greater impulse? Explainvi. Is the student correct or incorrect?

we know that F= -KX T= 2πM/K FOR M kg T 1=2πM/K FOR 3.5 Kg…

Answered: iv. How will the average force exerted…

iv. How will the average force exerted on the IM cart compare to the 3.5M cart? v. Which cart will experience the greater impulse? Explain vi. Is the student correct or incorrect?

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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Question

Please help me with questions iv, v, and vi

Force
Cart I
Mass - M
Lab Set Up #1
Sensor
Lab Set Up #2
Force
Cart 2
Mass -3.SM
Sensor
In a physics lab student have two different setups. Each setup has a frictionless cart connect to an identical massless spring. For each trial
the springs are compressed against a force sensor mounted to the track. Each spring is compressed from the equilibrium position x, to the
compresses position x. When the released cart returns to position x, the spring is no longer in contact with the force sensor. The force
sensor is set to record force and time information.

Another student makes the following claim.
"Because each cart is being pushed by identical springs over identical distances, both cart 1 and cart 2 will experience the same impulse,
so the F vs. t graphs will look the same for each cart."
(b) Indicate whether the claim is correct or incorrect and explain why.
iv. How will the average force exerted on the 1M cart compare to the 3.5M cart?
v. Which cart will experience the greater impulse? Explain
vi. Is the student correct or incorrect?

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