nduo Pre-Lab: There are many reasons people give to believe that all things accelerate to the Earth at 9.8 m/sec2. But, being a natural skeptic, you must see for yourself. So construct the ramp below to have a cart start from rest and slide down the mostly frictionless ramp (or at least not enough friction to interfere significantly with your attempted measured value of "g"). The ramp is 1.00 m (100 cm) long, and one end of the ramp is 5.0 cm above the other. You find that it takes 2.0 seconds for the cart to travel down the length of the ramp. t 20s 1. Using the distance the cart traveled down the ramp, as well as the time it takes for the cart to travel that distance, solve for the constant acceleration of the cart along the ramp in the space below. ham:.0sm AX-Im Ax- Vottat L a (a 2a(aj 10 - (0)2) Ed coez t 20s T1- Vo- Omls 1020200 .5ms Lab 5: Measurement of Acceleration 4. Apply Newton's 2nd law to the cart to find a relation between the acceleration of the cart down the ramp, the g value that you hope to measure, and the angle of the ramp with respect to the horizontal. 0-281 9.8mis avalu hone Tomeasune a- Bm/s S F Using this relation, as well as your calculations from 1. and 2., solve for the value of 5. g that you obtained during this experiment.

I I need help on question 4. The first picture is the scenario and my question is on the second picture 

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nduo Pre-Lab: There are many reasons people give to believe that all things accelerate to the Earth at 9.8 m/sec2. But, being a natural skeptic, you must see for yourself. So construct the ramp below to have a cart start from rest and slide down the mostly frictionless ramp (or at least not enough friction to interfere significantly with your attempted measured value of "g"). The ramp is 1.00 m (100 cm) long, and one end of the ramp is 5.0 cm above the other. You find that it takes 2.0 seconds for the cart to travel down the length of the ramp. t 20s 1. Using the distance the cart traveled down the ramp, as well as the time it takes for the cart to travel that distance, solve for the constant acceleration of the cart along the ramp in the space below. ham:.0sm AX-Im Ax- Vottat L a (a 2a(aj 10 - (0)2) Ed coez t 20s T1- Vo- Omls 1020200 .5ms

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Lab 5: Measurement of Acceleration 4. Apply Newton's 2nd law to the cart to find a relation between the acceleration of the cart down the ramp, the g value that you hope to measure, and the angle of the ramp with respect to the horizontal. 0-281 9.8mis avalu hone Tomeasune a- Bm/s S F Using this relation, as well as your calculations from 1. and 2., solve for the value of 5. g that you obtained during this experiment.