Two pieces of information you need IS STRENGTH & DIRECTION
This is correct not ANYTHING ELSE.
Two pieces of information you need IS STRENGTH & DIRECTION This is correct not ANYTHING ELSE.
Two pieces of information you need IS STRENGTH & DIRECTION This is correct not ANYTHING ELSE.
The direction and stength of a force can be represented by an arrow. The arrow points in the direction of the force.
To specify a force, you need to provide its magnitude, direction, and point of application. The magnitude represents the strength of the force, the direction indicates the path it's acting along, and the point of application signifies where the force is being applied on an object. Combining these three pieces of information fully defines a force.
To describe an object's motion, you need to know its speed, direction, and position at any given time. These three pieces of information can help create a complete picture of how the object is moving.
You need your username and your password. ;-)
To describe a force, you need to specify both its magnitude and its direction. The magnitude indicates how strong the force is, while the direction indicates the way in which the force is acting.
To identify and objects location you need three pieces of information. These are a reference point, a distance from the reference point, and a direction from the reference point.
The two things that make up a force are MAGNITUDE and DIRECTION... Amanda~(not member) This is not right. I just looked in my science textbook, and I'm sorry to confuse you all. The answer is size and DIRECTION . Thanks! Julia~ (member)
To describe a force, you need to include its magnitude, direction, and point of application. Magnitude refers to the strength of the force, direction indicates where the force is acting, and point of application specifies the exact location where the force is being applied.
To provide a precise answer, I need clarification on the specific context or topic for which you want to identify three pieces of information. Could you please specify?
Mass and speed.