A spacecraft moves along a path described by the parametric equations , for the first 100 sec after launch. Here, x and *y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place.

A spacecraft moves along a path described by the parametric equations , for the first 100 sec after launch. Here, x and *y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place.

A spacecraft moves along a path described by the parametric equations , for the first 100 sec after launch. Here, x and *y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place.

*y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place.

A spacecraft moves along a path described by the parametric equations , for the first 100 sec after launch. Here, x and *y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place. A spacecraft moves along a path described by the parametric equations ,, for the first 100 sec after launch. Here, x and *y* are measured in meters, and *t* is measured in seconds. Find the magnitude and direction of the velocity and the resultant acceleration of the spacecraft 12 seconds after launch. Round answers to one decimal place. x*y**y**t**t*12