The position of a particle is defined by S(t) = 2sint i + 4cost j [t in radians] What is the magnitude of the particle\'s acceleration at t = Pi ? 2 00 2.56 314 4.00 A 60000 kg railcar moving at 1 km/h is instantaneously coupled to a stationary 40000 kg railcar What is the speed of the coupled cars? 0 40 km/h 0 60 km/h 0 88 km/h 1.0 km/h A mass of 10 kg .s suspended from a vertical spring with a spring constant of 10 N/m What is the period of vibration? 0.30s 0 60s 0 90s 6.3s
3.
v = ds/dt
= 2cost i - 4sint j
a = dv/dt
= -2sint i - 4costj
At t= pi, we get a = -2*sin pi i - 4*cos pi j
= 0 - 4*(-1) j
= 4j
Hence, magnitude of acceleration = 4
4.
By momentum conservation, 60000*1 = (60000 + 40000)*v
v = 0.6 km/h
5.
Time period T = 2*pi*sqrt(m/k)
= 2*3.14*sqrt(10/10)
= 6.3 s
Homework Sourse![The position of a particle is defined by S(t) = 2sint i + 4cost j [t in radians] What is the magnitude of the particle\'s acceleration at t = Pi ? 2 00 2.56 31](/WebImages/16/the-position-of-a-particle-is-defined-by-st-2sint-i-4cost-1026016-1761531234-0.webp "The position of a particle is defined by S(t) = 2sint i + 4cost j [t in radians] What is the magnitude of the particle\'s acceleration at t = Pi ? 2 00 2.56 31")
