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A horizontal force of magnitude F 120 N is used to push a box of mass m 7 kg from rest a distance d 15 m up a frictionless incline with a slope q 34?
The work done by the force is equal to the change in potential energy of the box. The work done is given by W = Fdcos(q), where q is the angle of the incline. Therefore, the work done by the force would be W = 120 * 15 * cos(34). This work done will be equal to the change in potential energy of the box given by mgh, where h is the change in height (h = dsin(q)) and g is the acceleration due to gravity. Solve for h and substitute in the potential energy equation to find the value of the height h.
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If A 70 kg cart is pushed for 50 m with a constant velocity upon a 45º frictionless incline Find the work done on the cart?
The work done on the cart is equal to the force applied multiplied by the distance moved in the direction of the force. In this case, since the incline is frictionless, the only force doing work is the force of gravity. The work done would be the force of gravity acting on the cart multiplied by the distance along the incline.
Frictionless 30.0 incline What is the approximate magnitude of force f?
The magnitude of force f can be calculated using the equation f = mgsin(theta), where m is the mass of the object, g is the acceleration due to gravity, and theta is the angle of the incline. Given the angle of 30 degrees, the force can be calculated by plugging in the values of mass and acceleration due to gravity.
A 125.0 kg box is pushed by a horizontal force F at constant speed up a frictionless ramp which makes an angle of 25.0 deg with the horizontal Find the magnitude of the applied force F?
The force F can be determined by balancing the forces acting on the box along the incline. The force of gravity acting downward is mgsin(θ) where θ is the angle of the incline. The force F compensates for this to keep the box moving at a constant speed, so F = mgsin(θ). Plug in the values to find F.
A block of mass is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall what is the magnitude of the tension in the string?
The tension in the string would be equal to the component of the gravitational force pulling the block down the incline. This component is given by T = mgsin(theta), where m is the mass of the block, g is the acceleration due to gravity, and theta is the angle of the incline. Since the block is held motionless, this force balances out the component of gravity pulling the block down the incline.
How do you calculate the normal force on an incline?
To calculate the normal force on an incline, you can use the formula: Normal force weight cos(angle of incline). The normal force is the force exerted by a surface to support the weight of an object resting on it. The angle of incline is the angle at which the incline is tilted from the horizontal. By multiplying the weight of the object by the cosine of the angle of incline, you can determine the normal force acting perpendicular to the incline.
What is the advantage of an incline plane?
MA of inclined plane:Distance moved parallel to slope / vertical distance moved:Reciprocal of sin of incline angle (from horizontal):1 / ( sin ( incline angle ) )
If A 70 kg cart is pushed for 50 m with a constant velocity upon a 45º frictionless incline Find the work done on the cart?
The work done on the cart is equal to the force applied multiplied by the distance moved in the direction of the force. In this case, since the incline is frictionless, the only force doing work is the force of gravity. The work done would be the force of gravity acting on the cart multiplied by the distance along the incline.
Frictionless 30.0 incline What is the approximate magnitude of force f?
The magnitude of force f can be calculated using the equation f = mgsin(theta), where m is the mass of the object, g is the acceleration due to gravity, and theta is the angle of the incline. Given the angle of 30 degrees, the force can be calculated by plugging in the values of mass and acceleration due to gravity.
What is a high and low slope?
A high slope refers to a steep incline, meaning the elevation increases quickly over a short horizontal distance. A low slope, on the other hand, indicates a gentle incline with a gradual increase in elevation over a longer horizontal distance.
A 125.0 kg box is pushed by a horizontal force F at constant speed up a frictionless ramp which makes an angle of 25.0 deg with the horizontal Find the magnitude of the applied force F?
The force F can be determined by balancing the forces acting on the box along the incline. The force of gravity acting downward is mgsin(θ) where θ is the angle of the incline. The force F compensates for this to keep the box moving at a constant speed, so F = mgsin(θ). Plug in the values to find F.
What is the mechanical advantage of an incline plane?
MA of inclined plane:Distance moved parallel to slope / vertical distance moved:Reciprocal of sin of incline angle (from horizontal):1 / ( sin ( incline angle ) )
What is the simplest kind of fold?
Complexity of folds are defined by the axis and incline. The simplest folds have a horizontal axis and a slight incline.
A block of mass is held motionless on a frictionless inclined plane by means of a string attached to a vertical wall what is the magnitude of the tension in the string?
The tension in the string would be equal to the component of the gravitational force pulling the block down the incline. This component is given by T = mgsin(theta), where m is the mass of the block, g is the acceleration due to gravity, and theta is the angle of the incline. Since the block is held motionless, this force balances out the component of gravity pulling the block down the incline.
How the height affect the incline plane?
The higher the incline plane, the greater the angle made between the plane and the horizontal. So the plane will be steeper.
What is the driving distance from san francisco to incline village?
212 miles to Incline Village, Nevada.
How do you calculate weight on an incline?
An incline does not have a weight associated with it.
How do you calculate the normal force on an incline?
To calculate the normal force on an incline, you can use the formula: Normal force weight cos(angle of incline). The normal force is the force exerted by a surface to support the weight of an object resting on it. The angle of incline is the angle at which the incline is tilted from the horizontal. By multiplying the weight of the object by the cosine of the angle of incline, you can determine the normal force acting perpendicular to the incline.
