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∙ 13y agono. a force acting perpendicularly on a body cannot cancel a force which is acting horizontally on the same body.!!!!
Wiki User
∙ 13y agoYes, a force acting perpendicular to a horizontal force on a body can cancel out the horizontal force if the two forces are equal in magnitude and opposite in direction. This is known as the equilibrium condition, where the net force acting on the body is zero.
Yes, a force acting perpendicularly on a body can cancel out a force acting horizontally on the same body if their magnitudes are equal but opposite in direction, following the principles of vector addition. This will result in a net force of zero, causing the body to remain in equilibrium.
Yes, increasing the current in a wire will increase the magnetic force acting on it. This is described by the right-hand rule, where the direction of the magnetic force is perpendicular to both the current flow and the magnetic field. Increasing the current increases the strength of the magnetic field around the wire, leading to a stronger magnetic force.
The dimension of surface tension is MLT-2 because it is defined as the force acting perpendicular to a unit length of interface between two fluids. The force per unit length has units of force/length, which can be expressed as MLT-2.
The reaction force to the friction acting on the car is the friction force acting on the road. It acts on the car in the opposite direction to the friction force acting on the car.
The resultant force can be found using the Pythagorean theorem: Resultant force = sqrt((15^2 + 25^2) + 30^2) = sqrt (225 + 625 + 900) = sqrt(1750) = 41.86 N
Yes, a force acting perpendicularly on a body can cancel out a force acting horizontally on the same body if their magnitudes are equal but opposite in direction, following the principles of vector addition. This will result in a net force of zero, causing the body to remain in equilibrium.
The force acting perpendicular to a surface area is called normal force. It is the force that a surface exerts on an object placed on it, counteracting the force of gravity acting on the object.
It depends on the magnitude of the force and the mass of the object
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Gravity is a force acting down on it. A normal force is acting perpendicular to the ground at the base of the structure.
Lift is the force that acts upwards, perpendicular to the chord of the wing. Thrust is the force acting perpendicular to the propeller disc.
Perpendicular force is a force acting at a right angle to a surface or object, while resultant force is the single force that effectively replaces multiple forces acting on an object. Perpendicular force only affects motion in the direction it is applied, whereas resultant force takes into account all forces acting on an object to determine its overall motion.
Yes, it is possible for a force to act on a body and still have zero work done if the force is perpendicular to the direction of motion. For example, when you hold a book in your hand and walk horizontally, the force of gravity is acting on the book vertically, but since the book moves horizontally, the work done by gravity is zero.
An example of non-concurrent forces would be a book resting on a table where the weight of the book is acting vertically downward and the normal force from the table is acting vertically upward in the opposite direction. Another example is a car driving on a curved road where the centripetal force required for circular motion is acting horizontally inward, while the frictional force between the tires and the road is acting horizontally outward.
A force exerted on an object perpendicular to the surface of contact is called the normal force. It is the force that acts vertically upward or downward between an object and a surface, balancing out the force of gravity acting on the object.
If the force is acting horizontally, then its vertical component would be zero, since there is no vertical force acting in this scenario.
The force that resists gravity is called normal force. It is the force exerted by a surface to support the weight of an object resting on it, acting perpendicular to the surface.