Final answer:
To determine if the car can reach the top of the hill by coasting, more information about the car's initial speed, hill height, and friction is required.
Step-by-step explanation:
The question "Can the car make it to the top of the hill by coasting?" relates to the principles of energy conservation and mechanics in physics. Whether the car can coast to the top of the hill depends on variables such as the car's initial kinetic energy, the work done by non-conservative forces like friction, and the potential energy at the top of the hill. Without this specific information, it's not possible to definitively say if the car can make it to the top by coasting. To resolve this, one would need to know the initial speed of the car, the height of the hill, and the amount of friction the car encounters.
Utilizing this information, we could employ the work-energy principle which states that the work done by all forces is equal to the change in kinetic energy. If the initial kinetic energy of the car is greater than or equal to the work done against friction plus the gravitational potential energy at the hill's crest, the car will reach the top and potentially continue down. However, if the initial kinetic energy is less, the car will not reach the hill's crest. In conclusion, the correct answer is that more information is needed to determine if the car can make it to the top of the hill by coasting.