A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 7.3 m and v0 = 0 m/s. The ball has a constant acceleration of 1.8 m/s2 during the entire motion which occurs over a time of 2.2 s. Assume that an error in position of 7 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the entire motion to within the required error even though you are leaving out the final term of 1/2 a (\Delta t\: Δ t )2 ) present in the exact position expression?
A ball moves along a 1D coordinate system with the following motion parameters at time t...
A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 6.2 m and v0 = 0 m/s. The ball has a constant acceleration of 2.8 m/s2 during the entire motion which occurs over a time of 1.7 s. Assume that an error in position of 3 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...
A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 4.3 m and v0 = 0 m/s. The ball has a constant acceleration of 2.6 m/s2 during the entire motion which occurs over a time of 2.2 s. Assume that an error in position of 7 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...
A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 6.9 m and v0 = 3.1 m/s. The ball has a constant acceleration of 1.7 m/s2 during the entire motion which occurs over a time of 3.5 s. Assume that an error in position of 8 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...
A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 9.8 m and v0 = 0 m/s. The ball has a constant acceleration of 1.7 m/s2 during the entire motion which occurs over a time of 2.1 s. Assume that an error in position of 5 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...
A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 3.2 m and v0 = 0 m/s. The ball has a constant acceleration of 1.9 m/s2 during the entire motion which occurs over a time of 3.3 s. Assume that an error in position of 6 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...
A ball moves along a 1D coordinate system with the following motion parameters at time t O s: xo 3.7 m and vo O m/s. The ball has a constant acceleration of 2.3 m/s2 during the entire motion which occurs over a time of 1.9 s. Assume that an error in position of 2 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the entire motion to...
An object moves in one dimensional motion with constant acceleration a = 3.2 m/s2. At time t = 0 s, the object is at x0 = 2.2 m and has an initial velocity of v0 = 4.9 m/s. How far will the object move before it achieves a velocity of v = 8.4 m/s? Your answer should be accurate to the nearest 0.1 m.
An object moves in one dimensional motion with constant acceleration a = 6.9 m/s2. At time t = 0 s, the object is at x0 = 1.7 m and has an initial velocity of v0 = 3.6 m/s. How far will the object move before it achieves a velocity of v = 6.2 m/s? Your answer should be accurate to the nearest 0.1 m.
An object moves in one dimensional motion with constant acceleration a = 5.9 m/s2. At time t = 0 s, the object is at x0 = 4.1 m and has an initial velocity of v0 = 4.4 m/s. How far will the object move before it achieves a velocity of v = 8.5 m/s? Your answer should be accurate to the nearest 0.1 m.
An object moves in one dimensional motion with constant acceleration a = 4.8 m/s2. At time t = 0 s, the object is at x0 = 1.4 m and has an initial velocity of v0 = 3.6 m/s. How far will the object move before it achieves a velocity of v = 6.5 m/s? Your answer should be accurate to the nearest 0.1 m.