8A+Lab+2+-+Forces+and+Acceleration

This is a multiple part question, please help with what you are able to, thank you so much. Part A provides the information needed but I just need help with part D, E, and F, if possible. Thank you again.

1) A toy mobile is built like the one shown below. Adequate The diagram contains no errors and each force is labeled so that it is clearly understood what each force represents. B Mathematical procedure is fully consistent with the design. All quantities are calculated correctly with proper units. Final answer is meaningful. 2 Adequate Explanation is clear, detailed, and shows physical and conceptual understanding. Explains both what was done and why. 3 Object A has a 1.0-kg mass. What should be the mass of object B? The numbers indicate the relative lengths of the rods on each side of their supporting cords. Ability A5: Is able to construct a force diagram Needs Work Inadequate FD contains no errors in vectors but lacks a key feature such as labels of forces with two subscripts or vectors are not drawn from single point, or components are drawn instead of forces. 2 1 FD is constructed but contains major errors such as incorrect mislabeled or not labeled force vectors, length of…

This is a multiple part question, please help with what you are able to, thank you so much

Solve again and explain as you solve.

Which best explain the function of the pulley in the experiment on the vector addition of forces? * Pulleys were used to know the tension in the string that is the same magnitude with the weight of the hanging mass and have an adjustable direction of the equilibrant. O Pulleys were used to have an adjustable direction in locating the resultant force. Pulleys were used to hang the masses. O Pulleys were used to neglect the friction between the string and the pulley.

1. Apply Newton's second law to find the formula for the acceleration of the system. Ignore friction and the masses of the pulley and cord. Express your answer in terms of the variables mAmB, and appropriate constants.   2. Apply Newton's second law to find the formula for the tension in the cord. Ignore friction and the masses of the pulley and cord.

provide the following: 1. given 2. unknown 3. equation 4. solution 5. answer  *add diagram if applicable

Give the full solution in the given questions in the picture

B. Exercises for Skill Subjects/Analysis Questions Using HOTS for Content Subjects Exercise 1: Calculate me! A 100-gram ball m1, and a 200-gram ball m2, connected by a rod with a length of 60 cm. the mass of the rod is ignored. The axis or rotation is located at the center of the rod. What is the momentum of inertia of the balls about the axis rotation? Illustration: A Ace m1 m2 B

Answer what is asked. Take your time to answer, will give you thumbs up. You may draw to further explain the solution. Thank you

need help making a graph with my data

Keeping the total mass constant 1.  Look at the data: as the net force increased, what happened to the acceleration? Did it increase, decrease or stay constant? 2.  Did a change in the net force produce a change in acceleration by the same factor? Do your results agree with Newton’s 2nd Law? 3.  Make a plot of Net Force vs. Experimental Acceleration and draw the best fitting line.

Return to page 61 of the Student Module Booklet and begin Lesson questions 11 to 14, read each question carefully. Decide which of the choices completes the statement or answers the question. Place your answer in the I space given. 11. You can reduce the braking force required to stop a car by A. lengthening the braking time B. reducing the braking time C. increasing the friction between the tires and the road D. increasing the friction between the brake pads and drums 12. To decrease the forces experienced in an accident, A. decrease the time over which the change in momentum occurs B. increase the time over which the change in momentum occurs C. increase the change in velocity D. increase the mass of the vehicle

Please do help me with this please. It is a physics question. Please, i promise to give a perfect feedback to you. *A bicycle start’s its motion from rest and uniformly accelerates at a rate of 3.4 m/s2 for 9.14 seconds in a straight line. How far did the bicycle travel during that 9.14 seconds? *A skater moves with 13.57 m/s in a circle of radius 35.0 m. The ice exerts a centripetal force of 336.09 N. What is the mass of the skater?   Please. I promise to give a good feedback, please.

i need help creating a graph using excel or simular for my data in the attached photo. Thanks

I'm not sure how to start solving this problem.

2. Please help me solve both parts to this physics problem.

I am needing assistance with this question in its entirety ***Please type your answer or write in print, because I have had great difficulty with understanding most handwritten assistance done in cursive or mixed print/cursive.

Solve all the problems

Please do help me with this please. It is a physics question. Please, i promise to give a perfect feedback to you. *A child on a sled has been given a push so that he is moving up a hill. The hill is covered with icy snow and can be treated as frictionless. The child has a mass of 22.7 kg; the sled has a 3.18 kg. How far will he go before coming to a stop if his speed is 3.83 m/s when he starts at the bottom of the hill? He holds on tightly and so does not fall off the sled, and the hill makes an angle of 25.50 with the horizontal.   CHOICE:

Physics Please help me with this Physics homework question. THIS IS A PRACTICE HOMEWORK QUESTION. Please, it helps.

In the figure(Figure 1) the coefficient of static friction between mass mA and the table is 0.43, whereas the coefficient of kinetic friction is 0.33. Part A What minimum value of mA will keep the system from starting to move? Express your answer using two significant figures.     Part B What value of mA will keep the system moving at constant speed? Express your answer using two significant figures.

can you help with number 1?

You hang a book bag on a spring scale and place the bag on a platform scale so that the platform scale reads 29.7 N and the spring scale reads 17.6 N. Part A Draw a force diagram for the bag to represent the situation. Fs on B is the elastic force exerted by the spring on the bag, Np on B is the normal force exerted by the platform scale on the bag, and FE on B is the gravitational force exerted by Earth on the bag. Draw the vectors starting at the black dot. The location and orientation of the vectors will be graded. The length of the vectors will not be graded.