To calculate the work done when a force acts on an object in the direction of its displacement, use the formula = W = F ⋅d, where W is work, F is force, and d is displacement.
To calculate the work done when a force acts on an object in the direction of its displacement, use the formula = W = F ⋅d, where W is work, F is force, and d is displacement.
When defining work, consider the force applied, the displacement of the object, and the angle between them. Work is calculated as = W = F ⋅d⋅ cos(θ), where θ is the angle.
When defining work, consider the force applied, the displacement of the object, and the angle between them. Work is calculated as = W = F ⋅d⋅ cos(θ), where θ is the angle.
In science, work is defined as the transfer of energy when a force F is applied to an object, causing displacement d. The formula is = W = F ⋅ d ⋅cos(θ).
In science, work is defined as the transfer of energy when a force F is applied to an object, causing displacement d. The formula is = W = F ⋅ d ⋅cos(θ).
Work done is zero when the force applied on an object is perpendicular to its displacement, or when there is no displacement despite the force, such as pushing a wall that doesn't move.
Work done is zero when the force applied on an object is perpendicular to its displacement, or when there is no displacement despite the force, such as pushing a wall that doesn’t move.
When force and displacement are in the same direction, the formula for work is = W F⋅ d, where W is work, F is the force applied, and d is the displacement.
When force and displacement are in the same direction, the formula for work is = W F⋅ d, where W is work, F is the force applied, and d is the displacement.
How do you calculate the work done when a force acts on an object in the direction of its displacement?
To calculate the work done when a force acts on an object in the direction of its displacement, use the formula = W = F ⋅d, where W is work, F is force, and d is displacement.
To calculate the work done when a force acts on an object in the direction of its displacement, use the formula = W = F ⋅d, where W is work, F is force, and d is displacement.
See lessWhat conditions are considered when defining work in the context provided?
When defining work, consider the force applied, the displacement of the object, and the angle between them. Work is calculated as = W = F ⋅d⋅ cos(θ), where θ is the angle.
When defining work, consider the force applied, the displacement of the object, and the angle between them. Work is calculated as = W = F ⋅d⋅ cos(θ), where θ is the angle.
See lessHow is work defined in science?
In science, work is defined as the transfer of energy when a force F is applied to an object, causing displacement d. The formula is = W = F ⋅ d ⋅cos(θ).
In science, work is defined as the transfer of energy when a force F is applied to an object, causing displacement d. The formula is = W = F ⋅ d ⋅cos(θ).
See lessIn what scenario would the work done be zero according to the definition provided?
Work done is zero when the force applied on an object is perpendicular to its displacement, or when there is no displacement despite the force, such as pushing a wall that doesn't move.
Work done is zero when the force applied on an object is perpendicular to its displacement, or when there is no displacement despite the force, such as pushing a wall that doesn’t move.
See lessWhat is the formula for work when the force and displacement are in the same direction?
When force and displacement are in the same direction, the formula for work is = W F⋅ d, where W is work, F is the force applied, and d is the displacement.
When force and displacement are in the same direction, the formula for work is = W F⋅ d, where W is work, F is the force applied, and d is the displacement.
See less