The object is stationary in the coordinate system S 'at x ′ = 115 m. The...

A 5.97-kg object passes through the origin at time t = 0 such that its x...

A 5.97-kg object passes through the origin at time t = 0 such that its x component of velocity is 5.40 m/s and its y component of velocity is -3.24 m/s. (a) What is the kinetic energy of the object at this time?   (b) At a later time t = 2.00 s, the particle is located at x = 8.50 m and y = 5.00 m. What constant force acted on the object during this time interval? magnitude direction °...

A 6.32-kg object passes through the origin at time t = 0 such that its x...

A 6.32-kg object passes through the origin at time t = 0 such that its x component of velocity is 4.85 m/s and its ycomponent of velocity is -3.12 m/s. (a) What is the kinetic energy of the object at this time? J (b) At a later time t = 2.00 s, the particle is located at x = 8.50 m and y = 5.00 m. What constant force acted on the object during this time interval? magnitude N direction...

A 5.32-kg object passes through the origin at time t = 0 such that its x...

A 5.32-kg object passes through the origin at time t = 0 such that its x component of velocity is 5.40 m/s and its y component of velocity is −2.94 m/s. (a) What is the kinetic energy of the object at this time?   J (b) At a later time t = 2.00 s, the particle is located at x = 8.50 m and y = 5.00 m. What constant force acted on the object during this time interval? magnitude       N...

An   object   is   moving   in   x   direction.   At   t1=3(s)   it   is   located   at   x1=30   (m)   A

An   object   is   moving   in   x   direction.   At   t1=3(s)   it   is   located   at   x1=30   (m)   At   t2=5(s)   it   is   located   at   x2   =12   (m)      a)   find   the   velocity   of   the   object.   b)   what   can   you   tell   about   the   direction   that   the   object   is   moving   to?   Is   it   going   to   (+)   or   (-)?    c)   find   the   position   equation   (an   equation   that   gives   you   position   of   object   based   on   time)   (hint:   use   the   average   velocity   formula   to   find   it!)

Two electrons are at rest on the x-axis of a coordinate system. The ?rst is at...

Two electrons are at rest on the x-axis of a coordinate system. The ?rst is at x =0 and the second is at x = 1 m. Which of the following is possible at some time in the future? A. One electron will be at a negative x-position and one will be at a positive x-position. B. Both electrons will be at positive x-positions. C. Both electrons will be at negative x-positions. D. One electron will be at rest while...

1. An object moving vertically in free fall has an initial velocity vi m/s, starts at...

1. An object moving vertically in free fall has an initial velocity vi m/s, starts at y=0, and rises to a height of y=h. vi= 27 m/s Positive numbers are in the upward direction, and the object may drop below its initial position. 2. An object moving vertically in free fall has an initial velocity vi m/s, starts at y=0, and rises to y=h in t seconds, reaching a final velocity of vf m/s. Find yf if:vi= 38 m/s t=...

The x component of the velocity of an object vibrating along the x-axis obeys the equation...

The x component of the velocity of an object vibrating along the x-axis obeys the equation vx(t) = (0.445 m/s) sin[(25.4 rad/s)t + 0.223] 1) What is the object’s acceleration when its velocity has a maximum positive value? 2) What is the object’s position x when it has a velocity of -0.200 m/s and a positive acceleration value?

The function s=4e^(3t) + 5cos(2t) gives the position of an object moving on a coordinate line...

The function s=4e^(3t) + 5cos(2t) gives the position of an object moving on a coordinate line at time t. Find the object's acceleration at time t.

An object is moving in the X-Y plane. At time t1 the direction of its velocity,...

An object is moving in the X-Y plane. At time t1 the direction of its velocity, v and acceleration, a are: Direction of v is in the positive Y direction, Direction of a is in the negative Y direction. At time t1, the direction of the velocity of the object is _______. (changing or not changing) At time t1, the direction of the net force acting on the object is _______. Select the coordinate direction of the net force. (+X,...

An object experiences a constant acceleration of 2.00 m/s2 along the -x axis for 2.70 s,...

An object experiences a constant acceleration of 2.00 m/s2 along the -x axis for 2.70 s, attaining a velocity of 18.0 m/s in a direction 47∘∘ from the +x axis. 1) Calculate the magnitude of the initial velocity vector of the object. (Express your answer to two significant figures.) 2) Calculate the direction of the initial velocity vector of the object. Find the angle this vector makes with respect to the +x axis. Use value from -180 to +180. (Express...