Target Field's straight away center field points in the northwest direction.
The hurricane is located in the direction from which the wind is coming. So, if the wind is blowing in your face, the hurricane is ahead of you in that direction.
The center of gravity of the wrench follows a straight-line path due to its inertia, even as it spins. The spinning motion creates a torque, but since there is no external force to change its direction or affect its linear motion, its center of gravity remains on a straight path.
An example of acceleration in the direction of motion is a smooth spherical stone dropped from the roof of a building on a windless day. All the motion is straight down, toward the center of the earth, and so is the acceleration.
480 ft to straightaway center field, that's part of what made Willie mays' catch so amazing
The eye of a hurricane is the centre of the hurricane in which is a calmness that can fool people into believing the storm was over. Then the eye passes and the wind returned blowing in the reverse direction.
An example of acceleration in the direction of motion is a smooth spherical stone dropped from the roof of a building on a windless day. All the motion is straight down, toward the center of the earth, and so is the acceleration.
The short answer is that you move forwards or backwards by leaning in that direction. This causes the Segway to read that the center of gravity is not centered and it moves the wheels in the direction needed to get back in center and off you go until you stand up straight and the Segway becomes happy again that the center of gravity is where in belongs.
any direction. you can go any direction to get out of the center of the earth, but the center is to hot for humans, so dont try it
The direction of acceleration in circular uniform motion is directed towards the center of the circle, which is also known as centripetal acceleration. This acceleration is responsible for keeping an object moving in a circular path instead of moving in a straight line.
A centripetal force causes an object to change direction by pulling it towards the center of its circular path, thereby keeping it in a curved motion rather than moving in a straight line. This force is necessary to counteract the object's tendency to move in a straight line due to inertia.
A centripetal force acts towards the center of the circle, continually changing the object's direction towards the center. This force prevents the object from moving in a straight line and keeps it moving in a circular path.