The weight of a person can be represented by a vector that acts downwards.
The weight of a person can be represented by a vector that acts vertically downward, towards the center of the Earth. This vector is typically directed along the negative y-axis in a Cartesian coordinate system, with its magnitude equal to the force of gravity acting on the person's mass.
The weight of a person can be represented by a vector that points straight down. This is true even if the person is standing on a hill.
Parallel to the ground
Perpendicular to the ground
Force is a vector quantity made up of magnitude and direction. It is measured in units such as newtons (N) and can be represented graphically as an arrow. The magnitude of a force is the strength or intensity of the force, while the direction indicates the line along which the force acts.
In physics, a vector is a quantity that has both magnitude and direction. It is represented with an arrow pointing in the direction of the quantity and its length representing the magnitude. Vectors are used to describe physical quantities such as force, velocity, and acceleration.
Both forces can be called "weight".The gravitational force that attracts a person's body toward earth is calledthe person's weight on the earth.The gravitational force that attracts the earth toward a person's body could becalled the earth's weight on the person's body.The forces are both there, and they're equal.
Weight acts in the vertical direction, pulling an object towards the center of the Earth. It is a force due to gravity and is proportional to the mass of the object.
Yes, impulse is a vector quantity as it has both magnitude and direction. It is defined as the change in momentum of an object and is directly related to the force applied to the object over a period of time.
Zero. Weight acts downwards. Air resistance acts perpendicular to the kite area. Tension in the string acts along its length. Adding these together (as a vector diagram, if you like) produces a net force of 0.
It represented an attempt to unify colonies and colonists against the Coercive Acts.
They are caled the vectors or the method of transmission.yhe mosquito itself does not become infected but acts as a carrier and transmits the infection to humans after biting the person
Because a force always acts in a particular direction.
A Scalar Quantity is a physical quantity which has only magnitude and no direction associated with it . For eg,mass is a scalar quantity beause it has only magnitude (say 5 kg)but has no direction in which the magnitude acts towards.on the other hand a physical quantity which has both magnitude and direction is called a vector quantity.like weight is a vector quantity because it has magnitude along with direction(i.e. it always acts in the downward direction.
In physics, a vector is a quantity that has both magnitude and direction. It is represented with an arrow pointing in the direction of the quantity and its length representing the magnitude. Vectors are used to describe physical quantities such as force, velocity, and acceleration.
Vectors do not have the ability to taste or express preferences like humans do. A vector is a mathematical quantity that has magnitude and direction, used to represent physical quantities such as force or velocity.
The lift force on a plane is equal to its weight when it is flying at a constant speed and altitude. This balance is necessary for the plane to maintain level flight. If the lift force becomes greater than the weight, the plane will climb; if the lift force becomes less than the weight, the plane will descend.
lift acts upward, and weight acts downward
Yes, impulse is a vector quantity as it has both magnitude and direction. It is defined as the change in momentum of an object and is directly related to the force applied to the object over a period of time.
If a linear transformation acts on a vector and the result is only a change in the vector's magnitude, not direction, that vector is called an eigenvector of that particular linear transformation, and the magnitude that the vector is changed by is called an eigenvalue of that eigenvector.Formulaically, this statement is expressed as Av=kv, where A is the linear transformation, vis the eigenvector, and k is the eigenvalue. Keep in mind that A is usually a matrix and k is a scalar multiple that must exist in the field of which is over the vector space in question.
When unbalanced forces acts on a body , the body undergoes accelerationin the direction of the net force.F = maWhere F = vector sum of all forces acting on the objectm = mass of the objecta = vector acceleration of the object