• The first step in determining fault at the crash scene is to determine the coefficient of friction between the tires and the road. Here is what you know: • 1: A team was sent to the scene to complete the data collection needed for you to determine the coefficient of friction. To do this, the data collector drags a 13-265kg tire across the pavement. The force meter shows a force of 100N is needed to drag the tire at constant velocity. We also know that the coefficient of friction for the truck's tires is only 70% of the value for the car's tires. The weight of the car is Newtons. (Round to the nearest whole number)
• The first step in determining fault at the crash scene is to determine the coefficient of friction between the tires and the road. Here is what you know: • 1: A team was sent to the scene to complete the data collection needed for you to determine the coefficient of friction. To do this, the data collector drags a 13-265kg tire across the pavement. The force meter shows a force of 100N is needed to drag the tire at constant velocity. We also know that the coefficient of friction for the truck's tires is only 70% of the value for the car's tires. The weight of the car is Newtons. (Round to the nearest whole number)
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![• The first step in determining fault at the crash scene is to determine the coefficient of friction between the tires and the road. Here is what you
know:
• 1. A team was sent to the scene to complete the data collection needed for you to determine the coefficient of friction. To do this, the data
collector drags a 13-265kg tire across the pavement. The force meter shows a force of 100N is needed to drag the tire at constant velocity. We
also know that the coefficient of friction for the truck's tires is only 70% of the value for the car's tires.
The weight of the car is
Newtons (Round to the nearest whole number)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd5c9faf0-6f4e-4fb4-9c2b-2dce0283a63c%2F096caf79-5409-4d18-9e55-e5725900551a%2F6dt8fz_processed.jpeg&w=3840&q=75)
Transcribed Image Text:• The first step in determining fault at the crash scene is to determine the coefficient of friction between the tires and the road. Here is what you
know:
• 1. A team was sent to the scene to complete the data collection needed for you to determine the coefficient of friction. To do this, the data
collector drags a 13-265kg tire across the pavement. The force meter shows a force of 100N is needed to drag the tire at constant velocity. We
also know that the coefficient of friction for the truck's tires is only 70% of the value for the car's tires.
The weight of the car is
Newtons (Round to the nearest whole number)
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