Question

In: Physics

A hungry 177177 kg lion running northward at 84.584.5 km/hr attacks and holds onto a 35.335.3...

A hungry 177177 kg lion running northward at 84.584.5 km/hr attacks and holds onto a 35.335.3 kg Thomson's gazelle running eastward at 60.660.6 km/hr. Find the final speed of the lion–gazelle system immediately after the attack.

final speed:

m/s

Solutions

Expert Solution


Related Solutions

Lions can run at speeds up to approximately 80.0 km/h. A hungry 106 kg lion running...
Lions can run at speeds up to approximately 80.0 km/h. A hungry 106 kg lion running northward at top speed attacks and holds onto a 37.5 kg Thomson's gazelle running eastward at 77.5 km/h. Find the final speed ?f of the lion‑gazelle system just after the lion attacks. Find the angle ?θ between the final velocity of the lion‑gazelle system and the East axis, with positive angles measured counterclockwise from the East axis.
Tarzan, who has a mass of 80 kg, holds onto the end of a vine that...
Tarzan, who has a mass of 80 kg, holds onto the end of a vine that is at a 13 ∘ angle from the vertical. He steps off his branch and, just at the bottom of his swing, he grabs onto his chimp friend Cheetah, whose mass is 50 kg. What is the maximum angle the rope reaches as Tarzan swings to the other side? Express your answer in degrees.
Tarzan, who has a mass of 85 kg, holds onto the end of a vine that...
Tarzan, who has a mass of 85 kg, holds onto the end of a vine that is at a 13 ∘ angle from the vertical. He steps off his branch and, just at the bottom of his swing, he grabs onto his chimp friend Cheetah, whose mass is 30 kg. What is the maximum angle the rope reaches as Tarzan swings to the other side?
twoautomobiles of 840 kg and 1050 kg collide head on while moving at60 km/hr...
two automobiles of 840 kg and 1050 kg collide head on while moving at 60 km/hr in opposite directions. after they collision the automobiles remain locked together. find the velocity of the wreck immediately after the collision. also, find the kinetic energy of the two-car system before and after the collision
what are various Business environments that Hungry Lion operates in as they have an impact on...
what are various Business environments that Hungry Lion operates in as they have an impact on the successful operation of the business?( 20 Marks)
A 60.0 kg person running at an initial speed of 4.50 m/s jumps onto a 120...
A 60.0 kg person running at an initial speed of 4.50 m/s jumps onto a 120 kg cart that is initially at rest. The person slides on the cart's top surface and finally comes to rest relative to the cart. The coefficient of kinetic friction between the person and the cart is 0.320. Friction between the cart and the ground can be neglected. a.Find the final speed of the person and cart relative to the ground. b.For how long does...
A train has a mass of 4.82E+6 kg and is moving at 69.9 km/hr. The engineer...
A train has a mass of 4.82E+6 kg and is moving at 69.9 km/hr. The engineer applies the brakes, which results in a net backward force of 1.91E+6 N on the train. The brakes are held on for 28.2 s. What is the new speed of the train? How far does it travel during this period?
Discuss in detail (keeping the artical in mind), the various business environments that Hungry Lion operates...
Discuss in detail (keeping the artical in mind), the various business environments that Hungry Lion operates in as they have an impact on these successful operations of the business. 20 Marks The Continent’s Progressive QSR Player Stellenbosch-based fast food specialist Hungry Lion has found ideal footing for expansion over the coming years, owed to optimised operations and an admirable outlook Writer: Jonathan Dyble | Project Manager: Josh Hyland Adrian Basson is a self-described Afro-optimistic. “There’s no hiding from the fact...
1. Heather went for a walk one day. She walked north 6.0 km at 6.0 km/h and then west 10.0 km at 5.0 km/hr.
Questions 1. Heather went for a walk one day. She walked north 6.0 km at 6.0 km/h and then west 10.0 km at 5.0 km/hr. a. What is the total distance of her entire trip? b. What is the total displacement of her entire trip? 2. Use the diagram above to answer the following question: Determine the displacement vector when her position changes from A to B.
Consider the air over a city (60x25 km). Wind with 18 km/hr speed brings the fresh...
Consider the air over a city (60x25 km). Wind with 18 km/hr speed brings the fresh air into the city from the west side of the region (25 km wide). Assume the 15 kg/s carbon monoxide (CO) is emitted from different sources in the city to the air. Assume, also, that the CO is conservative and uniformly spread all over the area up to an altitude of one kilometer. Modeling the air over the city as steady-state system, find the...
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT