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1. Radial acceleration is due to a) changes in the magnitude of the b) the direction...
Please answer 1-4 accurately. Thank you. 1. Radial acceleration is due to a) changes in the...
Please answer 1-4 accurately. Thank you.
1. Radial acceleration is due to a) changes in the magnitude of the b) the direction of the velocity vee velocity vector c) changes in the direction of the ve- tor d) the magnitude of the velocity vec- locity vector tor 2. The direction of centripetal acceleration is always a) away from the center of the circle c) parallel to the velocity b) towards the center of the circle d) in the direction of...
MEDGAR EVERS COLLEGE Basic Physics PHY 114-W-01 Department of Physical and Computer Sciences Medgar Evers College...
MEDGAR EVERS COLLEGE Basic Physics PHY 114-W-01 Department of Physical and Computer Sciences Medgar Evers College Exam 2 Name Directions Read the questions carefully and write your answers in the space provided 1. Radial acceleration is due to a) changes in the magnitude of the b) the direction of the velocity vec- velocity vector e) changes in the direction of the ve tor 0) the maguitude of the welocity ve y veo- locity vector tor 2、The direction of centripetal accrleration...
An object moves in a circular path with constant angular speed. Compare the direction of the...
An object moves in a circular path with constant angular speed. Compare the direction of the object's tangential velocity vector to its centripetal acceleration vector. A) Both vectors point in the same direction B) The vectors point in opposite directions C) The vectors are perpendicular D) Impossible. The acceleration is zero. Two objects with masses m1 and m2 are original a distance r apart. The magnitude of the gravitational force between them is F. if BOTH masses are doubled, and...
The direction of the centripetal force is always in the same direction a. as the centripetal...
The direction of the centripetal force is always in the same direction a. as the centripetal acceleration vector b. as the velocity vector c. that an object would have if the centripetal acceleration suddenly stopped d. as the direction of motion of the object In this question, "constant in direction" refers to a fixed direction such as east or west. For uniform circular motion, the acceleration vector is a. changing in magnitude but constant in direction b. constant in magnitude...
answer all the above the car has an acceleration directed in the instantaneous direction of the...
answer all the above
the car has an acceleration directed in the instantaneous direction of the velocity vector. A ball is whirled on the end of a string in a horizontal circle at constant speed. Suddenly string breaks. Immediately after the string breaks, the ball will have a horizontal velocity away from the center of the circle have a horizontal velocity that is tangential to the circle. have a horizontal velocity toward the center of the circle. have a horizontal...
(a) What is the magnitude of the tangential acceleration of a bug on the rim of...
(a) What is the magnitude of the tangential acceleration of a bug on the rim of a 10.5-in.-diameter disk if the disk accelerates uniformly from rest to an angular speed of 79.0 rev/min in 3.30 s? m/s2 (b) When the disk is at its final speed, what is the magnitude of the tangential velocity of the bug? m/s (c) One second after the bug starts from rest, what is the magnitude of its tangential acceleration? m/s2 (d) One second after...
a) What is the magnitude of the tangential acceleration of a bug on the rim of...
a) What is the magnitude of the tangential acceleration of a bug on the rim of a 12.5-in.-diameter disk if the disk accelerates uniformly from rest to an angular speed of 76.0 rev/min in 4.70 s? m/s2 (b) When the disk is at its final speed, what is the magnitude of the tangential velocity of the bug? m/s (c) One second after the bug starts from rest, what is the magnitude of its tangential acceleration? m/s2 (d) One second after...
A car is driving around a curve that can be approximated as being circular. What direction...
A car is driving around a curve that can be approximated as
being circular. What direction does the centripetal force
point?
A car is driving around a curve that can be approximated as being circular. What direction does the centripetal force point? O O O O Towards the center of the circle Perpendicular to the plane of the circle In the direction of motion Tangential to the circle Away from the center of the circle The centripetal force (Fc) of...
Lab 4: Introduction & Instructions Centripetal Acceleration Introduction Velocity is a vector with both a magnitude...
Lab 4: Introduction & Instructions Centripetal Acceleration Introduction Velocity is a vector with both a magnitude and a direction. Since acceleration is a measure of a change in velocity over time, it seems reasonable that either the magnitude of the velocity vector could be changing, or the direction, or both. If magnitude is changing only, then the motion occurs in one dimension and the principles of algebra can be applied to the equations of motion. But suppose the opposite case...
c. It has tangential (linear) acceleration that points in the same direction as the velocity, and...
c. It has tangential (linear) acceleration that points in the same direction as the velocity, and a decreasing centripetal acceleration d. It has tangential (linear) acceleration that point opposite the velosity, and a constant centripetal acceleration QUESTION 3 A 53.5 kg parachutist jumps from an airplane and falls to Earth with a drag force proportional to the square of the speed, R-CV. Take C -0.220 kg/m (with the parachute closed) and C - 22.0 kg/m (with the chute open). What...
Please answer 1-4 accurately. Thank you.
1. Radial acceleration is due to a) changes in the magnitude of the b) the direction of the velocity vee velocity vector c) changes in the direction of the ve- tor d) the magnitude of the velocity vec- locity vector tor 2. The direction of centripetal acceleration is always a) away from the center of the circle c) parallel to the velocity b) towards the center of the circle d) in the direction of...
MEDGAR EVERS COLLEGE Basic Physics PHY 114-W-01 Department of Physical and Computer Sciences Medgar Evers College Exam 2 Name Directions Read the questions carefully and write your answers in the space provided 1. Radial acceleration is due to a) changes in the magnitude of the b) the direction of the velocity vec- velocity vector e) changes in the direction of the ve tor 0) the maguitude of the welocity ve y veo- locity vector tor 2、The direction of centripetal accrleration...
answer all the above
the car has an acceleration directed in the instantaneous direction of the velocity vector. A ball is whirled on the end of a string in a horizontal circle at constant speed. Suddenly string breaks. Immediately after the string breaks, the ball will have a horizontal velocity away from the center of the circle have a horizontal velocity that is tangential to the circle. have a horizontal velocity toward the center of the circle. have a horizontal...
A car is driving around a curve that can be approximated as
being circular. What direction does the centripetal force
point?
A car is driving around a curve that can be approximated as being circular. What direction does the centripetal force point? O O O O Towards the center of the circle Perpendicular to the plane of the circle In the direction of motion Tangential to the circle Away from the center of the circle The centripetal force (Fc) of...
c. It has tangential (linear) acceleration that points in the same direction as the velocity, and a decreasing centripetal acceleration d. It has tangential (linear) acceleration that point opposite the velosity, and a constant centripetal acceleration QUESTION 3 A 53.5 kg parachutist jumps from an airplane and falls to Earth with a drag force proportional to the square of the speed, R-CV. Take C -0.220 kg/m (with the parachute closed) and C - 22.0 kg/m (with the chute open). What...
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