The figure shows thes initial position i and the final position fof a particle. Im 4...
What is the initial position vector i in unit-vector notation? 2m//cr ~---_., 4 m 3 m What is the final position vectorin unit-vector notation? 3 m 4 m What is the x component of displacement Δ r ? 2 m 4 m 3m5m ITm
A1. For problem 21.57, write a formula for the position vector
of the electron as a function of time,
r⃗(t)r→(t), using unit vector ("i-hat"
and "j-hat") notation. Assume the electron starts at the origin of
your coordinate system at t = 0, so
r0→=0iˆ+0jˆ.
(Hint: Use equation 3-13b from the textbook.)
--- Hint
57. (II) An electron has an initial velocity o (8.0 x 10m/s)i /s)j It enters a region where E (2.0i +8.0j) x 10*N/C (a) Determine the vector...
1) Force F =(-8.00 N){+(6.00 N) j acts on a particle with position vector r = (3.00 m)i +(4.00 m)j. What are (a) the torque on the particle about the origin, in unit-vector notation, and (b) the angle between the directions of r and F?
In Figure P3.46, the line segment represents a path from the
point with position vector 15 i^ + 3 j^ 2 m to the point with
location (16 i^ + 12 j^) m. Point is along this path, a fraction f
of the way to the destination. (a) Find the position vector of
point in terms of f. (b) Evaluate the expression from part (a) for
f = 0. (c) Explain whether the result in part (b) is reasonable.
(d)...
Review PartA (Figure 1) shows the velocity graph for a particle having initial position o 0 m at to 0 s At what time or times is the particle found at 35 m? O t1 6 s and t2-10s t1-6s t1 10 s Figure 1 of 1 Submit Request Answer ns) Provide Feedback Next > 10 (0 -5 -10 2 4 6 810 12
The position ModifyingAbove r With right-arrow of a particle
moving in an xy plane is given by ModifyingAbove r With right-arrow
equals left-parenthesis 4 t cubed minus 3 t right-parenthesis
ModifyingAbove i With caret plus left-parenthesis 6 minus 2 t
Superscript 4 Baseline right-parenthesis ModifyingAbove j With
caret with ModifyingAbove r With right-arrow in meters and t in
seconds.
In unit-vector notation, calculate
(a)ModifyingAbove r With right-arrow,
(b)v Overscript right-arrow EndScripts, and
(c)a Overscript right-arrow EndScripts for t = 2...
A particle is located at the vector position i = (11 + 4)m and the force acting on it is į = 4ſ + 29 N. What is the torque about the origin ? (14.0 Nm) (-14.0 Nm)k (-14.0 Nm)ſ (-7.00 Nm) (-14.0 Nm) Two moles of an ideal gas does 3200 J of work on its surroundings as it expands isothermally to a final pressure of 1.00 atm and a volume of 58.0 L. Determine (a) the initial volume...
The figure shows a plot of potential energy U versus
position x of a 0.280 kg particle that can travel only
along an x axis under the influence of a conservative
force. The graph has these values: UA
= 9.00 J, UC = 20.0 J and
UD = 24.0 J. The particle is released
at the point where U forms a “potential hill” of “height”
UB = 12.0 J, with kinetic energy 5.00
J. What is the speed of the...
A particle of mass M = 7.5 kg is at a position r = (-3 i + 8 j)m, has velocity v = (-1 i -2 j)m/s and is being acted upon by a force 98 i + 2j)N. Calculate (a) the particle's angular momentum vector and (b) the torque vector acting upon it about the origin.
In the figure particle 1 of charge q1 8.50 pC and particle 2 of charge q2 -6.00 pC are ed at a distance d -6.00 cm apart. In unit-vector notation, what is the net electric field at points (a) A, (b) B, and (c) Ca (a) Number (b) Number i (c) Numbe i Units TN/C or V/m j UnitsTN/C or V/m Units TN/C or V/m 0.