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Answer the following questions True or False. Show your Complete Explanations. This is all about General Physics 1 Vectors.

Use Sketches, Diagrams and fundamental principles to reason your answer

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THUMBS-UP WILL BE GIVEN! WRITE THE COMPLETE SOLUTIONS (2 DECIMAL PLACES with units) CALCULUS-BASED PHYSICS A 5.00-kg apple crate slides down an incline. The slope is 1.30 m in length and inclined at an angle of 30.0° and the top starting point is 600 cm above the ground. The apple crate starts from rest at the top, experiences a constant friction force of magnitude 5.00 N. and continues to move a short distance on the horizontal ground after it leaves the incline. a. Use energy methods to determine the speed of the apple crate at the bottom of the incline. b. How far does the apple crate slide on the horizontal floor if it continues to experience a friction force of magnitude 5.00 N?

The answer must be typed - it cannot be hand-drawn Please explain in the simplest amount of steps possible thank you

In this problem you will measure the gravitational constant in a series of “observational experiments,” making use of Newton’s law of gravitation and second law of motion as well as Kepler’s third law of planetary motion Part (a)  Newton measured the centripetal acceleration of the moon in its orbit around Earth by comparing the force Earth exerts on the moon with the force Earth exerts on an apple. He obtained a value of ac = 2.72×10-3 m/s2. If Newton had taken the mass of Earth to be ME = 6.01×1024 kg and the mean distance between the centers of Earth and the moon to be RME = 3.85×108 m, what value would he have obtained for the gravitational constant, in units of N⋅m2/kg2?  G = 6.685 * 10( - 11 )G = 6.685E-11     ✔ Correct!     Part (b)  Since measuring the centripetal acceleration of an orbiting body is rather difficult, an alternative approach is to use the body’s rotational period instead. Enter an expression for the gravitational constant, in terms of the distance…

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q12 pls ty

Which one of the following groups contains only vector quantities? 1.acceleration, force, distance, energy 2.force, momentum, displacement, velocity 3.volume,speed,energy,distance 4.area, volume, speed, weight

2. The sphere of the figure moves with an initial velocity of 5.00 m/s from a height of 20.0 m. The surface is friction-free. Use AKE + AU = 0 to determine the velocity of the sphere when at a height of 7.0 m 20.0 m 7.0 m 17.0 m Figure 11: A sphere sliding down a friction-free ramp. Reference: M. Soto (2022)

HW 5.1 (must submit work on a separate sheet of paper title HW 5.1 AND complete Google Form) 1. The earth exerts a force of 2900 N on an orbiting communications satellite that is 40 mi above the Earth. What is the magnitude of the force the satellite will exert on the earth? 2. A stone is dropped from the top of a high cliff with zero initial velocity. In which system is the net momentum zero as the stone falls freely? a. the stone and the Earth b. the stone itself C. None of these d. the stone and the person who drops it 3. When an apple falls from a tree and strikes the ground without bouncing, what happens to its momentum? a) The momentum of the apple after striking the ground is reversed. b) The speed of the apple is equal and opposite to the speed of the Earth. C) The momentum of the apple while falling is increasingly smaller. d) The momentum of the falling apple is transferred to the Earth. 4. Two 0.5 kg balls move away from each other, one traveling 3 m/s to the right, the…

Answer the following questions. Show your Complete Explanations. This is all about General Physics 1 Vectors.

What value does the scale read? (in Newtons)

NEWTONS 2ND LAW OF MOTION:

Please accept problem if you know how to solve internal sheer force related questions Solve this problem where the final answers are make sure to show proper steps to get final answer Problem 1: VD = 75.78 kip; ND = -87.13 kip; MD = 317.34 kip-ft CCW Problem 2: VB = -60 kN; MB = 120 kN-m; VD = 142.5 kN; MD = -217.5 kN-m

7a. You pull a wagon along a level floor using a rope oriented horizontally in the positive x-direction. Draw a force diagram for the wagon.Draw the vectors starting at the black dot. The angle of the vectors will be graded. The length of your vectors will not be graded.