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A 1000 kg car has a maximum power output of 120 hp. How steep …
https://cylin.typepad.com/blog/2010/12/a-1000-kg-car-has-a-maximum-power-output-of-120-hp-how-steep-a-hill-can-it-climb-at-a-constant-speed-of-75-km.html
Question by Reaga: A 1000 kg car has a maximum power output of 120 hp. How steep a hill can it climb at a constant speed of 75 km? A 1000 kg car has a maximum power output of 120 hp. How steep a hill can it climb at a constant speed of 75 km/h if the frictional forces add up to 600 N?
Solved A car of mass 1000kg is at the top of a 10 degree
https://www.chegg.com/homework-help/questions-and-answers/car-mass-1000kg-top-10-degree-hill-shown-gravitational-potential-energy-relative-bottom-hi-q22930631
Science. Physics. Physics questions and answers. A car of mass 1000kg is at the top of a 10 degree hill as shown. What is its gravitational potential energy relative to the bottom of the hill? U = 1000kg times 9.8m/s^2 X 50m = 4.9 times 10^5J U = 1000kg times 50m = 5.0 times 10^5J U = 1000kg times 9.8m/s^2 times 50m times 10 = 4.9 times 10^6J U ...
Solved A car of mass 1000 kg is at the top of a degree hill …
https://www.chegg.com/homework-help/questions-and-answers/car-mass-1000-kg-top-degree-hill-shown-gravitational-potential-energy-relative-bottom-hill-q3227704
Physics questions and answers. A car of mass 1000 kg is at the top of a degree hill as shown. What is its gravitational potential energy relative to the bottom of the hill? U = 1000kg times 9.8m/s2 times 50m tan (10) = 8.6 t times 104 J U = 1000kg times 50m = 5.0 times 105 J U = 1000 times 9.8 times 50 = 4.9 times 105 J U = 1000kg times 9.8m/s2 ...
[Solved] A 1000-kg car is slowly picking up speed as it …
https://brainly.com/question/12367167
A 1000-kg car is slowly picking up speed as it goes around a horizontal curve whose radius is 100 m. The coeff… Get the answers you need, now! korleone3007 korleone3007 03/26/2019 Physics High School answered A 1000-kg car is slowly picking up speed as it goes around a horizontal curve whose radius is 100 m. The coefficient of static friction ...
A 1000 kg car is rolling down the street at 2.5 m/s. How …
https://www.jiskha.com/questions/817214/a-1000-kg-car-is-rolling-down-the-street-at-2-5-m-s-how-fast-would-a-2500-kg-car-have-to
4. A 1500 kg car starts from rest and drives around a flat 50 m diameter circular track. The forward force provided by the car’s wheels is a constant 1000 N. a. What are the magnitudes and direction of the car’s acceleration . physics. A 2000 kg car is rolling at 2.0 m/s. You would like to stop the car by firing a 12 kg blob of sticky clay ...
A 1000-kg car is slowly picking up speed as it goes …
https://brainly.com/question/13950771
A 1000-kg car is slowly picking up speed as it goes around a horizontal unbanked curve whose radius is 100 m. The coefficient of static friction between the tires and the road is 0.35. ... U= 0.35, g= 10 metre per seconds, radius,r= 100 m, mass of the car= 1000 kg. Slotting in the parameters into equation (2) above. 10 m/s × 100 m × 0.35= v^2 ...
Physics Chapter 9 - Energy Flashcards & Practice Test
https://quizlet.com/200130792/physics-chapter-9-energy-flash-cards/
the ratio of useful energy output to total energy input - the percentage of the work input that is converted to work output. efficiency =. useful work output / total work input. if we put in 100 J of work on a lever and get out 98 J of work, the lever is __% …
Physics Flashcards - Quizlet
https://quizlet.com/413072179/physics-flash-cards/
Racing greyhounds are capable of rounding corners at very high speeds. A typical greyhound track has turns that are 45-m-diameter semicircles. ... A 1500 kg car drives around a flat 200-m-diameter circular track at 25 m/s. What are the magnitude and direction of the net force on the car? ... At what speed does a 1000 kg compact car have the ...
A car with a mass of 1000kg initially moving at a rate of ... - Socratic
https://socratic.org/questions/a-car-with-a-mass-of-1000kg-initially-moving-at-a-rate-of-20m-s-rolls-to-a-stop-
When a car with a mass of 1000kg initially moving at a rate of 20ms^-1 rolls to a stop. As no brakes are applied all the energy is spent against friction only. Using Law of Conservation of energy. Change in Kinetic energy of car Delta KE=KE_"Final"-KE_"Initial" =>Delta KE=0-1/2xx1000xx20^2 =>Delta KE=-2.0xx10^5J This loss of energy is the work done by friction …
A roller coaster car with a mass of 500 kg at the top of a
https://socratic.org/questions/a-roller-coaster-car-with-a-mass-of-500-kg-at-the-top-of-a-hill-that-is-30-m-hig
147150 Joules Assuming no friction between the roller coaster car and the hill, and neglecting air resistance, the kinetic energy the roller coaster car would have at the bottom of the hill would be equal to its gravitational potential energy at the top of the hill, by conservation of energy. At the top of the hill, the roller coaster car only contains potential energy as it is …
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