Maximum acceleration of a Porsche on a concrete surface?

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The discussion centers on calculating the maximum acceleration of a Porsche 944 Turbo on a concrete surface with a static friction coefficient of 1.0. The car has a power output of 217 hp and a mass of 1460 kg, with two-thirds of its weight over the drive wheels, affecting the normal force. Participants clarify that the maximum static friction force can be calculated using the formula μN, where N is the adjusted normal force. The conversation emphasizes that friction is the primary horizontal force to consider, ignoring air resistance for this calculation. Ultimately, the correct approach involves adjusting the normal force based on the weight distribution to find the acceleration.
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A Porsche 944 Turbo has a rated power of 217 hp and a mass, with the driver, of 1460 kg. Two-thirds of the car's weight is over the drive wheels.

What is the maximum acceleration of the Porsche on a concrete surface where static friction=1.0

1hp=476watts
217hp=103292 watts

and power= Force*velo but what's the force?

What is the speed of the Porsche at maximum power output
thats easy if i get the force i just solve for v

If the Porsche accelerates at , how long does it take until it reaches the maximum power output?
again easy if i can get the first part. any help is appreciated
 
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The force acting on the car is the static friction of the road on the tires. The maximum possible static friction force is given by \mu N, where N is the normal force pressing the surfaces together. That should get you going.
 
yea i think i got that but I am not sure if the rest is right then

u*N=ma

(1.0*1460kg*9.81)/1460 = a? that doesn't seem right is there another force?
 
Friction is the only horizontal force you need worry about. (I presume you may ignore air resistance.) But note that you were told "Two-thirds of the car's weight is over the drive wheels". How would that modify the normal force used to calculate the friction?
 
ooo right so

1*9.81*(2/3)m=m(total)*a ok that should workk thanks!
 

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