Question: 1. If an eruption of Mount Ontake created a pyroclastic flow that raced toward Takayama at 500 km/hr, how long would it take the pyroclastic flow to reach the city? Show your work. Record your answer in minutes. [ Speed = Distance/Time ] [ Slope = Rise/Run = Elevation Change / Ground Distance ] 2. Calculate the slope of Mauna Loa in m/m.

Item 3 3 of 7 Review Constants Jupiter's moon lo has active volcanoes (in fact, it is the most volcanically active body in the solar system) that eject material as high as 500 km (or even higher) above the surface. lo has a mass of 8.93 x 1022 kg and a radius of 1821 km. Part A How high would this material go on earth if it were ejected with the same speed as on lo?

Compute the values of momentum for the following situations: (a) a 90-kg football player running at 6 m/s; (b) a 1500-kg car moving at a rate of 100 km/h; (c) a 200,000 kg Boeing 777 moving at a speed of 500 km/h; (d) a bullet with a mass of 15 g traveling at a speed of 500 m/s; (e) a 140-g baseball traveling at 120 km/h; (f) a 80 kg stunt performer falling off a …

(RE = 6370 km, Jupiter's moon Io has active volcanoes (in fact, it is the most volcanically active body in the solar system) that eject material as high as 500 km (or even higher) above the surface. Io has a mass of 8.93×1022kg and a radius of 1821 km.

Question: Two possible routes for a power line are under study. In both cases the power line will last 15 years, have no salvage value, have annual property taxes of 2% of ?rst cost, and have a yearly power loss of $500/km. Around the lake Under the lake Length 15 km 5 km First

Problem 13.67 Part A Consider a spacecraft in an elliptical orbit around the earth. At the low point, or perigee, of its orbit, it is 500 km above the earth's surface; at the high point, or apogee, it is 3500 km above the earth's surface.

(Select all correct answers.)0-30 km30-100 km100-200 km200-300 km300-500 km>500 km Your solution’s ready to go! Enhanced with AI, our expert help has broken down your problem into an easy-to-learn solution you can count on.

With what velocity does the particle strike the earth if it is released from rest at an altitude y 0 = 500 km? Use the numerical data in Prob. 12-33. Use the numerical data in Prob. 12-33. Not the question you’re looking for?

The North American and European continents are moving apart at a rate of about 3 cm/y. At this rate how long will it take them to drift 500 km farther apart than they are at present? Hints: Time At = (500 km / rate) = (5 x 105 m/ [3 cm/y]) X (100 cm /1 m) => y …

Two planes, A and B , are flying at the same altitude. Their velocities are vA = 500 km/h and vB = 730 km/h such that the angle between their straightline courses is θ = 60∘ . Determine the magnitude of the velocity of plane B with respect to plane A. Determine the direction angle of the velocity of plane B with respect to plane A, measured