5. A ball is thrown with an initial velocity of 8.5 m/s at an angle of 35° above the x-axis toward a cliff. The cliff is 5m, so that the ball drops 5 m from its original height. Find the total horizontal distance that the ball traveled.
3. What is a consideration when forcing interior walls? A. C. D. The wall coverings often hide interior metal framing. The walls may be load-bearing and affect structural integrity. Power tools must be used since all interior walls are reinforced. Forcing the wall will require firefighters to work in a team of two.
A feather is dropped onto the surface of the moon. How far will the feather have fallen if it reaches the surface in 9.00 seconds? Given: g on moon = -1.63 meters/second2
a mango tree dropped to the ground from the top of a tree 40m tall. Find How long it takes to the fruit to reach the group if acceleration due to gravity g=10m/s
ANALYSIS 1. Which has more kinetic energy: a. A compact car going 70 mph or a tractor trailer going 15 mph? b. An SUV going 30 mph or a pickup truck going 30 mph? c. A school bus going 15 mph, an SUV going 35 mph, or a compact car going 45 mph?
Cart A (200 g) is moving to the left at 1.0 m/s and Cart B (200 g) is moving to the right at 1.0 m/s. Cart A is attached to a rubber band that exerts an impulse of 0.1 N-s then snaps. Cart B has clay on it, so the two carts will stick together after they collide. What will be the combined carts' new speed? In which direction?
Please help! A cylinder (1 = 0.5MR²) is rolling along the ground at 7.0 m/s. It comes to a hill and starts going up. Assuming no losses to friction, how high does it get before it stops?
derive from one of the laws of motion the relation between the momentum produced in a body and the force applied on the body
A girl riding a bicycle at 2.0 m/s throws a tennis ball horizontally forward at a speed of 1.0 m/s from a height of 1.5 m. At the same moment, a boy standing on the sidewalk drops a tennis ball straight down from a height of 1.5 m.What is the initial speed of the girl's ball relative to the boy? WILL GIVE BRAINLIEST
To review the concept of conservative forces and to understand that electrostatic forces are, in fact, conservative. As you may recall from mechanics, some forces have a very special property, namely, that the work done on an object does not depend on the object's trajectory; rather, it depends only on the initial and the final positions of the object. Such forces are called conservative forces. If only conservative forces act within a closed system, the total amount of mechanical energy is conserved within the system (hence the term "conservative"). Such forces have a number of properties that simplify the solution of many problems. You may also recall that a potential energy function can be defined with respect to a conservative force. This property of conservative forces will be of particular interest of us. Not all forces that we deal with are conservative, of course. For instance, the amount of work done by a frictional force very much depends on the object's trajectory. Friction, therefore, is not a conservative force. In contrast, the gravitational force is the most common example of a conservative force. What about electrostatic (Coulomb) forces? Are they conservative, and is there a potential energy function associated with them? In this problem, you will be asked to use the given diagram(Figure 1) to calculate the work done by the electric field E⃗ on a particle of charge q and see for yourself whether that work appears to be trajectory-independent. Recall that the force acting on a charged particle in an electric field is given by F⃗ =E⃗ q . Recall that the work W done on an object by a constant force is W=Fdcosθ , where F is the magnitude of the force acting on the object, d is the magnitude of the displacement that the object undergoes, and θ is the angle between the vectors F⃗ and d⃗ . Consider a uniform electric field E⃗ and a rectangle ABCD, as shown in the figure. Sides AB and CD are parallel to E⃗ and have length L; let α be angle BAC. A) Calculate the work WAB done by the electrostatic force on a particle of charge q as it moves from A to B. B) Calculate the work WBC done by the electrostatic force on the charged particle as it moves from B to C. C) Calculate the total amount of work WABC done by the electrostatic force on the charged particle as it moves from A to B to C.
A ball rolls down a ramp for 5 seconds. If the ball started with no speed and ended with a speed of 15 m/s, what was the acceleration of the ball?
Find the work done in moving a particle from P (0.92, 2.5) to Q(−3.1, 5) if the force is ⃗v = −3.6ˆı + 2.1ˆ.
A child throws a piece of candy corn directly up with an initial velocity of 3.8 m/s. If the starting height of the candy was 2.2 meters, what will be the height of the candy after 0.3 seconds? Use a = -9.8m/s/s
