9-23 Newton's 2nd Law Practice

Posljednje ažuriranje about 1 month ago

Units: Force - N; mass - kg; acceleration: m/s²

Even though force is a vector, don't worry about adding a direction to your answers.

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9-23 Newton's 2nd Law Practice

Posljednje ažuriranje about 1 month ago

Units: Force - N; mass - kg; acceleration: m/s²

Even though force is a vector, don't worry about adding a direction to your answers.

null

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s2 .

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s². Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s². Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the cart in the question above experiences a frictional force of 1 N, What is the net force in the x-direction?

Jordan’s airplane accelerates horizontally at 31 m/s2

Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

What is the net force in the y-direction of Jordan's plane?

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion)

Draw the Free Body Diagram: Keith kicks a basketball with a mass of 9 kg along the surface. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion) Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

What is the net force of the basketball in the x-direction if it experiences a frictional force of 0.4N?

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9-23 Newton's 2nd Law Practice

9-23 Newton's 2nd Law Practice

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s². Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s². Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the cart in the question above experiences a frictional force of 1 N, What is the net force in the x-direction?

Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

What is the net force in the y-direction of Jordan's plane?

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion)

What is the net force of the basketball in the x-direction if it experiences a frictional force of 0.4N?

If the object has no acceleration in either direction, what is the magnitude of F_t?

If the object has no acceleration in either direction, what is the magnitude of F_g?

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s². Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s². Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the cart in the question above experiences a frictional force of 1 N, What is the net force in the x-direction?

Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

What is the net force in the y-direction of Jordan's plane?

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion)

What is the net force of the basketball in the x-direction if it experiences a frictional force of 0.4N?

If the object has no acceleration in either direction, what is the magnitude of F_t?

If the object has no acceleration in either direction, what is the magnitude of F_g?

Knowing the magnitude of F_g, what is the object's mass?

If F_t = 105N, what is the net force in the x-direction?

If F_t= 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of F_t would be needed to have an acceleration of 20m/s²?

Knowing the magnitude of F_g, what is the object's mass?

If F_t = 105N, what is the net force in the x-direction?

If F_t= 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of F_t would be needed to have an acceleration of 20m/s²?

9-23 Newton's 2nd Law Practice

9-23 Newton's 2nd Law Practice

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s2 . Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s2. Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the cart in the question above experiences a frictional force of 1 N, What is the net force in the x-direction?

Jordan’s airplane accelerates horizontally at 31 m/s2. Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

What is the net force in the y-direction of Jordan's plane?

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s2. Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion)

What is the net force of the basketball in the x-direction if it experiences a frictional force of 0.4N?

If the object has no acceleration in either direction, what is the magnitude of Ft?

If the object has no acceleration in either direction, what is the magnitude of Fg?

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s2 . Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s2. Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the cart in the question above experiences a frictional force of 1 N, What is the net force in the x-direction?

Jordan’s airplane accelerates horizontally at 31 m/s2. Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

What is the net force in the y-direction of Jordan's plane?

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s2. Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Keith kicks a basketball with a mass of 9 kg. He says, “It’ll be fine" as it breaks a window. If Keith applied a force of 41 N to the basketball, find the ball’s acceleration. (Assume no vertical motion)

What is the net force of the basketball in the x-direction if it experiences a frictional force of 0.4N?

If the object has no acceleration in either direction, what is the magnitude of Ft?

If the object has no acceleration in either direction, what is the magnitude of Fg?

Knowing the magnitude of Fg, what is the object's mass?

If Ft = 105N, what is the net force in the x-direction?

If Ft = 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of Ft would be needed to have an acceleration of 20m/s2?

Knowing the magnitude of Fg, what is the object's mass?

If Ft = 105N, what is the net force in the x-direction?

If Ft = 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of Ft would be needed to have an acceleration of 20m/s2?

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s². Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s². Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the object has no acceleration in either direction, what is the magnitude of F_t?

If the object has no acceleration in either direction, what is the magnitude of F_g?

Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is to the right at 2 m/s². Find the force Taylor is applying to the cart.

Draw the Free Body Diagram Taylor is pushing a Disney turkey leg vending cart with a mass of 42 kg. The cart’s acceleration is 2 m/s². Find the force Taylor is applying to the cart. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Due to the aerodynamics of the plane’s design, you can disregard air resistance.

Draw the Free Body Diagram Jordan’s airplane accelerates horizontally at 31 m/s². Find Jordan’s airplane’s mass if she applies a force of 273,730 N. Remember, Free Body Diagrams have all forces drawn, labeled, and the value if you can calculate.

If the object has no acceleration in either direction, what is the magnitude of F_t?

If the object has no acceleration in either direction, what is the magnitude of F_g?

Knowing the magnitude of F_g, what is the object's mass?

If F_t = 105N, what is the net force in the x-direction?

If F_t= 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of F_t would be needed to have an acceleration of 20m/s²?

Knowing the magnitude of F_g, what is the object's mass?

If F_t = 105N, what is the net force in the x-direction?

If F_t= 105N, what is the object's acceleration? (Use previous answer for this question)

What magnitude of F_t would be needed to have an acceleration of 20m/s²?