It's not possible. Acceleration is defined as a change in velocity, so if the speed is constant, the acceleration is zero. If the acceleration is zero, so is the net force.
The velocity does not change direction or magnitude. The object 1) may not be moving, or it 2) may be moving at a constant velocity. In the case of the latter, that means it's moving in the same direction and at a constant speed.
If a car moving in a straight line travels equal distance in equal time no matter how small these distances may be, the car is said to be moving with a CONSTANT or Uniform Velocity.
no because constant acceleration describes and object speeding up at an equal rate wheras constant speed describes an object travelling at the same speed over time. By the way i h8 physics don't ever do it
The slope of a position-time graph for an object moving with constant velocity is equal to the velocity of the object. This is because velocity is the rate of change of position with respect to time, and a constant velocity means the object is covering equal distances in equal time intervals.
Constant acceleration in one direction means that the object is moving at a steady rate, increasing its velocity by the same amount over equal time intervals. This results in a straight-line graph when plotting velocity against time.
Constant speed means constant velocity. Constant velocity means an object is covering same distance in equal intervals of time. So how is it possible to have acceleration. Acceleration means speed is increasing with equal intervals of time. So its not possible according to my logic.
If the speed is constant then equal distances are covered in equal intervals of time If acceleration is constant then equal change in velocity occurs in equal intervals of time.
The velocity does not change direction or magnitude. The object 1) may not be moving, or it 2) may be moving at a constant velocity. In the case of the latter, that means it's moving in the same direction and at a constant speed.
Changing at a constant rate equal to acceleration.
If a car moving in a straight line travels equal distance in equal time no matter how small these distances may be, the car is said to be moving with a CONSTANT or Uniform Velocity.
no because constant acceleration describes and object speeding up at an equal rate wheras constant speed describes an object travelling at the same speed over time. By the way i h8 physics don't ever do it
If the object is moving along a horizontal surface with a constant acceleration,then the net vertical force on it is zero, and the net horizontal force on it is(the pushing force) minus (any kinetic friction force where it rubs the surface).The numerical value of that net force is(the acceleration) times (the object's mass).
The slope of a position-time graph for an object moving with constant velocity is equal to the velocity of the object. This is because velocity is the rate of change of position with respect to time, and a constant velocity means the object is covering equal distances in equal time intervals.
Constant acceleration in one direction means that the object is moving at a steady rate, increasing its velocity by the same amount over equal time intervals. This results in a straight-line graph when plotting velocity against time.
The graph of acceleration vs time for something going at a constant positive velocity would be a horizontal line at zero on the acceleration axis. This is because there is no change in velocity, so the acceleration is constant and equal to zero.
The average acceleration of the object will be negative since it changes direction from upward to downward velocity. The acceleration will be constant because the object undergoes constant acceleration throughout the motion.
Constant acceleration is defined as a situation in which an object's velocity changes by the same amount in each equal time interval. This means that the object's speed increases or decreases at a constant rate over time. Mathematically, constant acceleration can be represented by the equation a = (v_f - v_i) / t, where a is the acceleration, v_f is the final velocity, v_i is the initial velocity, and t is the time.