Calculate this in two steps.
1. Calculate the total work required. Reminder: work = force x distance.
2. Divide the work by the time to get the power.
The work done to raise the object is given by W = F*d, where W is the work, F is the force (103 N) and d is the distance (16.0 m). Thus, W = 103 N * 16.0 m = 1648 J. The power is calculated as P = W/t, where t is the time taken (48.0 s), so P = 1648 J / 48.0 s ≈ 34.3 W.
The work done on the block is 350 J, which can be used to raise the block against gravity. Work done = force x distance. So, distance raised = work done / force = 350 J / 7 N = 50 meters.
To increase the gravitational potential energy (GPE) of an object, you can raise it to a higher elevation, where the gravitational force is stronger. This can be done by lifting the object against gravity, increasing its distance from the ground. The formula for gravitational potential energy is GPE = mgh, where m is the object's mass, g is the acceleration due to gravity, and h is the height of the object above a reference point.
An inclined plane is considered a simple machine because it reduces the force needed to lift an object by increasing the distance over which the force is applied. It allows the user to exert less effort over a longer distance to raise or lower objects.
The function of an inclined plane is to decrease the amount of force required to move an object vertically by increasing the distance over which the force is applied. It allows heavy objects to be moved or lifted with less effort compared to lifting them straight up. Inclined planes are commonly used in ramps, staircases, and slides.
Using an inclined plane to lift an object reduces the amount of force required to lift the object by increasing the distance over which the force is applied. The trade-off is that the force needs to be applied over a longer distance, but the overall work done remains the same. Inclined planes are useful for reducing the amount of force needed to lift heavy objects, making it easier to transport them vertically.
the less force is needed.
The work done on the block is 350 J, which can be used to raise the block against gravity. Work done = force x distance. So, distance raised = work done / force = 350 J / 7 N = 50 meters.
Yes, the noun 'raise' can function as the direct object of a verb. Example: He said that he would give my raise serious consideration. (the noun 'raise' is the direct object of the verb 'would give')
An inclined plane allows an object to be lifted through a vertical distance using less force than is required to lift the object straight up. The shallower the angle of the inclined plane, the less force is required to raise the object. The inclined plane is a very simple machine that offers a mechanical advantage. Although the force needed to raise the object is reduced, the force needs to move through a longer distance. Therefore, it takes the same amount of energy to raise the object . In fact, as there is always an amount of friction, it will actually take more energy to lift that simply lifting it straight up. The most common example of an inclined plane is a ramp used to raise vehicles to a higher level.
Power = work done (force * distance) / time > So: 175 = (300 * 8.4) / time > So: time = (300 * 8.4) / 175 > = 2520 / 175 = 14.4 seconds
a slanted surface used to raise and object is an inclined plane
"to raise taxes" is an infinitive phrase. It is used as a noun-object of the verb "wanted" in this sentences.
the answer is e raise to power minus pi/2
-10
A mirror.
when we left an object we raise its height by pulling it up.
Raise a power to a power by multiplying the two exponents together; e.g. (x 2)3 is x6