There is not enough information to calculate the answer.
To find the change in velocity in a given scenario, subtract the initial velocity from the final velocity. The change in velocity is the difference between the two velocities.
You cannot.
To find the distance traveled by an object with a given acceleration and initial velocity, you can use the formula: distance (initial velocity time) (0.5 acceleration time2). This formula takes into account the initial velocity, acceleration, and time the object has been moving to calculate the total distance traveled.
Use the formula Acceleration = (final velosity - initial velocity)/ time.
v = 2s/t - u where u=initial velocity, v=final velocity, s = distance and t = time
To find the initial velocity of an object when given its x and y components, you can use the Pythagorean theorem. Simply square the x and y components, add them together, and then take the square root of the sum. This will give you the magnitude of the initial velocity.
Without distance, you have to know time, initial velocity, and acceleration, in order to find final velocity.
You use the information you're given, along with the equations and formulas you know that express some kind of relationship between the information you're given and the initial and final velocity.
To find the final velocity when given the acceleration and time, you can use the formula: final velocity initial velocity (acceleration x time). Simply plug in the values for acceleration and time, and calculate the final velocity.
You can't. You need either the final velocity or the acceleration of the object as well, and then you can substitute the known values into a kinematics equation to get the initial velocity.
You can find the final speed by using the formula: final speed = initial velocity + (acceleration * time). Plug in the given values for initial velocity, acceleration, and time into the formula to calculate the final speed.
Get the value of initial velocity. Get the angle of projection. Break initial velocity into components along x and y axis. Apply the equation of motion .