1-3) A teflon block of mass 5.00 kg slides to the right on a steel floor under the influence of an external applied force that is directed toward the right and has magnitude 3.00 N (as you might have due to the constant pull from a cord attached to it, for instance). Enter all answers in standard units, and do not include the units in the answer fields. I) Calculate the magnitude of the normal force with which the floor pushes on the block. 2) Calculate the magnitude of the frictional force acting on the block. 3) Calculate the magnitude of the acceleration this block is experiencing.

Can you please do all of them. Thank you

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### Physics Problem Choices When solving for the static frictional force, select the answer from the list below that is closest to the true value. **A) 0.6325 m²/s²** **B) 2.695 m²/s²** **C) 3.993 m²/s²** **D) 4.557 m²/s²** **E) 196.2 N** **F) 274.7 N** **G) 300.0 N** **H) 392.4 N** --- This list provides various options for possible results in a physics problem related to static frictional force. To solve the problem, compare your calculated result with these options and choose the one that is closest to your answer.

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### Physics Problem Set: Force and Motion #### Problem 1-3 A Teflon block of mass 5.00 kg slides to the right on a steel floor under the influence of an external applied force that is directed toward the right and has a magnitude of 3.00 N (as you might have due to the constant pull from a cord attached to it, for instance). Enter all answers in standard units, and do not include the units in the answer fields. 1. **Calculate the magnitude of the normal force with which the floor pushes on the block.** 2. **Calculate the magnitude of the frictional force acting on the block.** 3. **Calculate the magnitude of the acceleration this block is experiencing.** #### Problem 4-6 Take the same problem as before and add a second external force that points in the same direction as the normal force from the floor on the block with a magnitude of 8.00 N. Solve the same three problems and report following the same guidance. 4. **Calculate the magnitude of the normal force with which the floor pushes on the block.** 5. **Calculate the magnitude of the frictional force acting on the block.** 6. **Calculate the magnitude of the acceleration this block is experiencing.** #### Problem 7 Consider a rubber block with a mass of 40.0 kg sitting at rest on a dry, flat, concrete surface. Will a sideways applied force of 300.0 N from someone pushing on the block be able to make the block accelerate? If the answer is yes, calculate the magnitude of the acceleration. If the answer is no, calculate the magnitude of the frictional force opposing the push.