WebNov 8, 2024 · The car's initial velocity is 0. The car's top speed is 203 mph, (which will also be its final velocity as it crosses the finish line) This car will accelerate at an average of .091 g (2.93 ft/s2). The 12.42 mile long … WebQuestion: Describe the energy of a car driving up a hill. a. entirely kinetic b. entirely potential c. both kinetic and potential d. gravitational e. elastic Explain why This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn core concepts. See Answer
What forces are acting on a car on a hill? [Ultimate Guide!]
WebSep 17, 2013 · Physics 8 Work, Energy, and Power (16 of 37) Driving Up A Hill Michel van Biezen 912K subscribers Subscribe 495 88K views 9 years ago PHYSICS MECHANICS 2: ENERGY, … WebWhen a force is applied to the brakes of a vehicle, there is work done by the friction between the brakes and the wheel. This reduces the kinetic energy of the vehicle, slowing it down and... green procurement in the philippines
[Physics 1] Free Body Diagram of a car going uphill at …
WebDescribe the energy of a car driving up a hill. A) entirely kinetic B) entirely potential C) both kinetic and potential D) gravitational Answer: C C ) both kinetic and potential 17. A ball falls from the top of a building, through the air (air friction is present), to the ground below. WebSep 14, 2024 · For most of the hill, the car settles at 45 MPH. If you were to drive down the hill at 35 MPH, then the system should be charging the battery a bit. However, if you … WebMar 17, 2024 · This becomes that a car moving uphill/downhill (at a constant speed) must use more energy than a flat (which is how one actually drives). But the answers are being more subtle than this, with some form of non (or low) fuel use downhill in a glide ie the uphill car stops using fuel after half the journey. $\endgroup$ – green procurement government of canada