belt veApired to nd the location of A iom C and the velocitt of Ayiohees A...
A ball is kicked from a location (7,0, -8) (on the ground) with initial velocity (-9, 14, -4) m/s. The ball's speed is low enough that air resistance is negligible. (a) What is the velocity of the ball 0.2 seconds after being kicked? (Use the Momentum Principle!) (b) In this situation (constant force), which velocity will give the most accurate value for the location of the ball 0.2 seconds after it is kicked? the final velocity of the ball the...
A small manufacturer is going to install a conveyer belt from their loading dock to the second floor to transport boxed components. When the components get to the second floor they will be unpacked, tested and assembled into the final product. The conveyer belt is 42 feet long and is supported on rollers every foot over the entire length. The conveyer belt is inclined 26.6 degrees. The boxes that will travel on the belt are each three feet long and...
A bar magnet whosa dipole moment is (o, O, 7) A-m2 has a constant velocity of (O, O, 9) m/s. When the center of the magnet is at location (1, 7, 6) m, what is the (vector) electric field at location (1.08, 7, 3) m? N/C A bar magnet whosa dipole moment is (o, O, 7) A-m2 has a constant velocity of (O, O, 9) m/s. When the center of the magnet is at location (1, 7, 6) m, what...
A ball is kicked from a location <5, 0, -13> m (on the ground) with initial velocity <-19, 12, -3> m/s. (a) What is the velocity of the ball 0.2 seconds after being kicked? (b) What is the location of the ball 0.2 seconds after being kicked? c) How much time does it take for the ball to reach its maximum height, where vy=0 momentarily? (d) What is the maximum height? (e) At what time does the ball hit the...
Problem 17 (s.oo pts) nd of a 4-oom long metal bar. A mierophone at the other end picks up two pulses of ed by 1.o ms. What is the bar was first sound, one that travels through the bar, the other through the air. The pulses are sep the speed of sound in the bar? Assume the speed of sound in air is 343 m/s and the pulse fron oll s A) 5174 m/s ) 176 m/s C)2587 m/s D)...
Solve A nd B please <H.W.114 Problem 13.38 The 380-kg bar B, originally at rest, is being towed over a series of small rollers. The motor M is drawing in the cable for a short time at a rate of v =(0.4?) m/s, where t is in seconds (0 <t<6s). Neglect the mass of the cable, pulley, and the rollers. (Figure 1) Figure < 1 of 1 B O Type here to search Part A Determine the force in the...
3. Steam at 20 bar and 640 °C is available at one location in an industrial plant. At another location, steam at 15 bar and 360 °C is required for use in a certain process. An engineer suggests that steam at this condition can be provided by allowing the higher-pressure steam to expand through a valve to 15 bar and then cool to 360 °C through a heat exchanger with heat transfer to the surroundings, which are at 25 °GC...
*Problem 2.35 A ball is kicked from a location 9, Ο 4> m on the ground with initial velocityく10 13 0 (a) What is the velocity of the ball 0.2 s after being kicked? (Use the Momentum Principle!) 6> m/s. The ball's speed is low enough that air resistance is negligible. m/s (b) In this situation (constant force), which velocity will give the most accurate value for the location of the ball 0.2 s after it is kicked? C C...
A long steel bar with a diameter of 4 cm (ρ = 7840 kg / m3 , cp = 580 J / kg ° K, k = 52 W / mK, α = 1.21x10-5 m2 / s), internal enters the 2 m long moving belt heat treatment furnace at ambient temperature of 900 ° C at 40 ° C. Since the film coefficient in the oven is 100 W / m2K, the center axis temperature of the bar at the...
.30 kg mass has location x as graphed. label max acceleration, calculate curvature , energy in oscillator P5. A 0.30 kg mass has location Xı as graphed: a) Label its maximum acceleration “am” compute its maximum acceleration Position (cm) 400 0.1 0.2 0.3 Time (s) 0.4 b) Label its zero speed times as “SO”; Label its zero acceleration times as "a0” c) calculate the PE curvature (stiffness) 0.5 d) calculate the Energy in the oscillator.