Physics Assignment
Problem 1
A) Find your weight (near the surface of the earth) in Newtons.
B) Find your mass in kilograms.
C) Find what your weight in Newtons would be if you were in an orbit at a distance of 2 earth radii above the surface of the earth. (So you would be three earth radii from the center of the earth.)
Problem 2
A) Use the gravitational force law to find your weight on the surface of Venus. (Look up the mass and radius of Venus on the web or elsewhere.)
B) Calculate (don't just look up) the gravitational field strength gV (acceleration due to gravity) on the surface of Venus.
Problem 3
A) Compare (by doing the calculations) the gravitational force that the earth exerts on the moon to the gravitational force that the sun exerts on the moon. (Look up needed physical data on the web.)
B) In part A) you should have found that the force that the sun exerts on the moon is larger than the force that the earth exerts on the moon. Why, then, doesn't the sun pull the moon away from the earth?
Problem 4
A) Is the gravitational force that the earth exerts on a falling eraser greater than, equal to, or less than the gravitational force that the falling eraser exerts on the earth. Briey justify your answer.
B) Why does the falling eraser of part A) accelerate towards the earth more than the earth accelerates towards the eraser?
Problem 5
Indicate whether each of the following statements is true or false. Briey justify your answers.
A) An object that has zero velocity, at a given instant, must be experiencing zero net force at that instant.
B) An object has the same mass when on earth and when on the moon.
C) An object has the same weight when on earth and when on the moon.
D) The gravitational force between two protons is greater in size than the electrostatic force between the two protons.
Problem 6
Consider a ball thrown straight up in the air which then returns to the level from which it was thrown. Noting that the acceleration of the ball is in the direction of the change in velocity of the ball, determine the direction of the acceleration of the ball
A) at a point on the upward path of the ball.
B) at the very top of the ight.
C) at a point on the downward ight of the ball.
Problem 7
According to Newton's Second Law, more massive objects tend to be harder to accelerate. Why then do all objects, regardless of mass accelerate at the same rate when in free fall?
Format your assignment according to the following formatting requirements:
1. The answer should be typed, double spaced, using Times New Roman font (size 12), with one-inch margins on all sides.
2. The response also includes a cover page containing the title of the assignment, the student's name, the course title, and the date. The cover page is not included in the required page length.
3. Also include a reference page. The Citations and references should follow APA format. The reference page is not included in the required page length.