Homework Answers
Add Answer to:
Quantitative: 5) A 1300 kg car is driving up a hill angled 10° above flat ground....
A man pulls a 10-kg sled 66 meters along an angled hill with a force of...
A man pulls a 10-kg sled 66 meters along an angled hill with a force of 53 N, which elevates the man 28 meters above the bottom of the hill. The man then hops on his sled and slides from rest to the bottom of the hill back along his 66 meter path, during which a 102 N frictional force acts upon his sled. How much work in Joules does the man do on the sled in pulling the sled...
A man pulls a 10-kg sled 59 meters along an angled hill with a force of...
A man pulls a 10-kg sled 59 meters along an angled hill with a force of 108 N, which elevates the man 30 meters above the bottom of the hill. The man then hops on his sled and slides from rest to the bottom of the hill back along his 59 meter path, during which a 148 N frictional force acts upon his sled. How much work in Joules does the man do against friction in pulling the sled up...
You push a box of mass 22.6 kg with your car up to an icy hill...
You push a box of mass 22.6 kg with your car up to an icy hill slope of irregular shape to a height 4.3 m. The box has a speed 12 m/s when it starts up the hill, the same time that you brake. It then rises up to the top (with no friction) to a flat area before coming to a rest when hitting a box of mass 89 kg. The heavier box then falls off a sheer cliff...
HILL COLLISION III My Notes You push a box of mass 24.3 kg with your car...
HILL COLLISION III My Notes You push a box of mass 24.3 kg with your car up to an icy hill slope of irregular shape to a height 5.5 m. The box has a speed 11 m/s when it starts up the hill, the same time that you brake. It then rises up to the top (with no friction) to a flat area before elastically colliding with a smaller box of mass 12 kg. The boxes then fall off a...
؟ A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant...
؟
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 80 km/hr, what is the power (kW) required for the uphill motion? Select one: a. power 108.7 kW. b. power 89.6 kW. c. power 119.7 kW. d. power 102.3 kW. e. power 95.9 kW. Question 10
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed...
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 75 km/hr, what is the power (kW) required for the uphill motion? Select one: O a. power 95.9 kW. O b. power 119.7 kW. c. power 89.6 kW. d. power 108.7 kW. e power 102.3 kW.
thermal and heat question A car (1000 kg) climbs up a hill sloped at 28° while...
thermal and heat question
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 80 km/hr, what is the power (kW) required for the uphill motion? Select one: O a. power 102.3 kW. O b. power 95.9 kW. O c. power 108.7 kW. O d. power 89.6 kW. O e. power 119.7 kW.
The 1930 kg cable car shown in the figure descends a 200-m-high hill. In addition to...
The 1930 kg cable car shown in the figure descends a 200-m-high hill. In addition to its brakes, the cable car controls its speed by pulling an 1760 kg counterweight up the other side of the hill. The rolling friction of both the cable car and the counterweight are negligible. (Figure 1) Part A How much braking force does the cable car need to descend at constant speed? Express your answer with the appropriate units. Value Units Submit Request Answer...
1)A toy car with a mass of 4 kg is driving up an inclined ramp. It...
1)A toy car with a mass of 4 kg is driving up an inclined ramp. It starts at a speed of 3 m/s, and after it has traveled a distance of 2 m up the ramp it comes to a stop. How much total work was done on the toy car? 2)A girl lifts a 1 kilogram box vertically a distance of 1 meter, at constant speed. What is the total work done on the box (rounded to 1 significant...
Problem # 4 The 3000 kg cable car shown in figure descends a 200 m-high hill....
Problem # 4 The 3000 kg cable car shown in figure descends a 200 m-high hill. In addition to its brakes, the cable car controls its speed by pulling a 2500 kg counterweight up the other side of the hill. The rolling friction of both the cable car and the counterweight are negligible. Counterweight 200 m 25° 35 A. Draw the free body diagrams of cable car (call it m,) and the counterweight (call it m2) mass. Draw component diagrams....
You push a box of mass 22.6 kg with your car up to an icy hill slope of irregular shape to a height 4.3 m. The box has a speed 12 m/s when it starts up the hill, the same time that you brake. It then rises up to the top (with no friction) to a flat area before coming to a rest when hitting a box of mass 89 kg. The heavier box then falls off a sheer cliff...
؟
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 80 km/hr, what is the power (kW) required for the uphill motion? Select one: a. power 108.7 kW. b. power 89.6 kW. c. power 119.7 kW. d. power 102.3 kW. e. power 95.9 kW. Question 10
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 75 km/hr, what is the power (kW) required for the uphill motion? Select one: O a. power 95.9 kW. O b. power 119.7 kW. c. power 89.6 kW. d. power 108.7 kW. e power 102.3 kW.
thermal and heat question
A car (1000 kg) climbs up a hill sloped at 28° while traveling at constant speed of 80 km/hr, what is the power (kW) required for the uphill motion? Select one: O a. power 102.3 kW. O b. power 95.9 kW. O c. power 108.7 kW. O d. power 89.6 kW. O e. power 119.7 kW.
The 1930 kg cable car shown in the figure descends a 200-m-high hill. In addition to its brakes, the cable car controls its speed by pulling an 1760 kg counterweight up the other side of the hill. The rolling friction of both the cable car and the counterweight are negligible. (Figure 1) Part A How much braking force does the cable car need to descend at constant speed? Express your answer with the appropriate units. Value Units Submit Request Answer...
Problem # 4 The 3000 kg cable car shown in figure descends a 200 m-high hill. In addition to its brakes, the cable car controls its speed by pulling a 2500 kg counterweight up the other side of the hill. The rolling friction of both the cable car and the counterweight are negligible. Counterweight 200 m 25° 35 A. Draw the free body diagrams of cable car (call it m,) and the counterweight (call it m2) mass. Draw component diagrams....
Most questions answered within 3 hours.
-
A local AM radio station broadcasts at an energy of
4.39×10-31 kJ/photon.
Calculate the frequency at...
asked 5 minutes ago -
Smithson Cutting is opening a new line of scissors for
supermarket distribution. It estimates its fixed...
asked 11 minutes ago -
A student working in a genetics lab was given the task of
studying a new Drosophila...
asked 12 minutes ago -
Object A is moving due east, while object B is moving due north.
They collide and...
asked 13 minutes ago -
Use the de Broglie relationship (l = h/mu where u is speed) to
determine the wavelengths...
asked 29 minutes ago -
An elliptical hair that is 80µ by 120µ in minor and
major diameters that is 10...
asked 29 minutes ago -
I need the SWOT analysis the Tenets of Warren Buffet for the
company "Goldman Sachs".
asked 30 minutes ago -
What is the state of relations between the Soviet Union and the
West between 1965 and...
asked 35 minutes ago -
regarding business managment-
1. define social identity theory / clearly state the
theory.
2. briefly mention...
asked 39 minutes ago -
Develop the pseudocode and the flowchart for a program that
finds the sum of 5 numbers.
asked 44 minutes ago -
Hi, I hope I can get some help with the following exercise in
C++( CPP):
1.Write...
asked 44 minutes ago -
Mul-Choice Psy
1. Kevin is a good student. He studies hard because when he does
he...
asked 59 minutes ago