# The vector position of a 3.00 g particle moving in the xy plane varies in time according to the following equation. R1=(3i+3j)t+2jt^2 At the same…

The vector position of a 3.00 g particle moving in the xy plane varies in time according to the following equation. R1=(3i+3j)t+2jt^2 At the same….

The vector position of a 3.00 g particle moving in the xy plane varies in time according to the following equation.R1=(3i+3j)t+2jt^2At the same time, the vector position of a 5.80 g particle varies according to the following equation.R2=3i-2it^2-6jtFor each equation, t is in s and r is in cm. Solve the following when t = 2.60(b) Find the linear momentum of the system. __________ i g-cm/s __________ j g-cm/s(c) Find the velocity of the center of mass._________ i cm/s_________ j cm/s(d) Find the acceleration of the center of mass._________ i cm/s2_________ j cm/s2(e) Find the net force exerted on the two-particle system._________ i μN_________ j μN

The vector position of a 3.00 g particle moving in the xy plane varies in time according to the following equation. R1=(3i+3j)t+2jt^2 At the same…