Yes. You can consider a vector of being made up of a magnitude (size) and a direction. If any of the two changes, it is no longer the same vector.
Alternately, you can also consider a vector (in two dimensions, for simplicity) as being made up of an x-component and a y-component. It is not possible to change the angle without changing at least one of the two components.
Changing the angle of an object's motion will affect both the horizontal and vertical components of its velocity. For example, if you increase the angle of launch for a projectile, it will have a greater vertical component and a shorter horizontal component. This will result in a change in the overall velocity vector of the object.
No, angular displacement refers to the change in angle of an object relative to a reference point, while angular velocity is the rate at which an object changes its angle over time. Angular displacement is a scalar quantity, measured in radians, while angular velocity is a vector quantity with direction and magnitude, measured in radians per second.
No, a vector's magnitude and direction can remain the same if it is rotated through an angle, as long as the rotation occurs around an axis that is parallel to the vector. The vector is considered unchanged in this scenario.
To determine the velocity vector of an object, you need to know both the speed and direction of the object's motion. The velocity vector is a quantity that includes both the magnitude (speed) and the direction of the object's motion. It is typically represented as an arrow pointing in the direction of motion, with the length of the arrow representing the speed. You can calculate the velocity vector by measuring the object's speed and the angle of its motion relative to a reference point.
Two or more velocities can be combined by vector addition. To add velocities, the direction and magnitude of each velocity must be taken into account. The result will be a new velocity that represents the combined effect of the individual velocities.
Changing the angle of an object's motion will affect both the horizontal and vertical components of its velocity. For example, if you increase the angle of launch for a projectile, it will have a greater vertical component and a shorter horizontal component. This will result in a change in the overall velocity vector of the object.
Yes. The angle is the direction of the vector, so if the angle changes, the direction changes.
No, angular displacement refers to the change in angle of an object relative to a reference point, while angular velocity is the rate at which an object changes its angle over time. Angular displacement is a scalar quantity, measured in radians, while angular velocity is a vector quantity with direction and magnitude, measured in radians per second.
HELLO, im a bus driver and i can say that the (FPA )flight path angle is the angle Between the local horizontal and the local velocity vector , One can also support that is the angle between the local velocity vector and The torque vector, torque being opposite to drag, merci
Almost all of us would say that angle is a scalar quantity. But the beauty is that angle is a vector quantity. Now the question arises. Where will be the direction? As we measure the angle in a plane in counter clockwise direction, then direction of angle vector will be perpendicular to the plane and coming out of the surface. If the angle is measured in clockwise then vector would go into the surface normally. As angle becomes vector then angular velocity w = @/t also becomes a vector.
The velocity might still change, in the case of a force applied at a right angle to the movement. In this case, since the object's direction changes, its velocity changes.
Almost all of us would say that angle is a scalar quantity. But the beauty is that angle is a vector quantity. Now the question arises. Where will be the direction? As we measure the angle in a plane in counter clockwise direction, then direction of angle vector will be perpendicular to the plane and coming out of the surface. If the angle is measured in clockwise then vector would go into the surface normally. As angle becomes vector then angular velocity w = @/t also becomes a vector.
If vector a and b are truly identical, their resultant angle will be the same. Their resultant velocity will not be the same, however. Assuming you mean the magnitudes are the same, the two vectors will be at an angle of 120o
If the angle decreases, the magnitude of the resultant vector increases.
No, a vector's magnitude and direction can remain the same if it is rotated through an angle, as long as the rotation occurs around an axis that is parallel to the vector. The vector is considered unchanged in this scenario.
To determine the velocity vector of an object, you need to know both the speed and direction of the object's motion. The velocity vector is a quantity that includes both the magnitude (speed) and the direction of the object's motion. It is typically represented as an arrow pointing in the direction of motion, with the length of the arrow representing the speed. You can calculate the velocity vector by measuring the object's speed and the angle of its motion relative to a reference point.
Two or more velocities can be combined by vector addition. To add velocities, the direction and magnitude of each velocity must be taken into account. The result will be a new velocity that represents the combined effect of the individual velocities.