How Does a Particle's Position Change with Acceleration in the XY Plane?

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A particle starts at the origin with an initial velocity of 7.2 m/s in the positive y direction and experiences a constant acceleration of (3.0i - 2.0j) m/s². To determine the x-coordinate when the particle crosses the x-axis (y=0), both x and y initial positions are set to zero. The problem requires formulating expressions for the x and y positions over time and using substitution to find the solution. The discussion emphasizes the importance of correctly applying kinematic equations to solve for the x-coordinate. Understanding the relationship between position, velocity, and acceleration is crucial for solving this problem.
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Homework Statement



A particle leaves the origin with a velocity of 7.2 m/s in the positive y direction and moves in the xy plane with a constant acceleration of (3.0i - 2.0j) m/s2. At the instant the particle moves back across the x-axis (y=0), what is the value of its x coordinate?

Homework Equations



vxf=vxi+axt
xf=xi+.5(vxf+vxi)t
xf=xi+vxit+.5axt2
v2xf=v2xi+2ax(xf-xi)


The Attempt at a Solution



Are my x and y initial (0,0) because it says origin? Do I have to used to substitution as well?
 
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Starting at the origin does mean that xi=yi=0, yes.

I'm not entirely sure what your second question means, but you should be able to formulate an expression for both the x and y position of the particle at any given time and then use substitution to find the answer.
 
Thread 'Variable mass system : water sprayed into a moving container'

Thread 'Variable mass system : water sprayed into a moving container'

Starting with the mass considerations #m(t)# is mass of water #M_{c}# mass of container and #M(t)# mass of total system $$M(t) = M_{C} + m(t)$$ $$\Rightarrow \frac{dM(t)}{dt} = \frac{dm(t)}{dt}$$ $$P_i = Mv + u \, dm$$ $$P_f = (M + dm)(v + dv)$$ $$\Delta P = M \, dv + (v - u) \, dm$$ $$F = \frac{dP}{dt} = M \frac{dv}{dt} + (v - u) \frac{dm}{dt}$$ $$F = u \frac{dm}{dt} = \rho A u^2$$ from conservation of momentum , the cannon recoils with the same force which it applies. $$\quad \frac{dm}{dt}...
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