Download 2.3 Extra practice for quiz

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Equations of motion wikipedia , lookup

Jerk (physics) wikipedia , lookup

Coriolis force wikipedia , lookup

Modified Newtonian dynamics wikipedia , lookup

Inertia wikipedia , lookup

Buoyancy wikipedia , lookup

Rigid body dynamics wikipedia , lookup

Fundamental interaction wikipedia , lookup

Newton's theorem of revolving orbits wikipedia , lookup

Fictitious force wikipedia , lookup

Weight wikipedia , lookup

Force wikipedia , lookup

Centrifugal force wikipedia , lookup

Newton's laws of motion wikipedia , lookup

Classical central-force problem wikipedia , lookup

G-force wikipedia , lookup

Gravity wikipedia , lookup

Centripetal force wikipedia , lookup

Transcript
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method:
Name
Teacher
Block
Extra practice Section 2.3: Newton’s 2nd Law
Answer the questions neatly on a different page.
Solve problems providing givens and to find, equation in terms of unknown, substitute with units, do
unit analysis and solve in correct significant figures.
=
∆
+ ∆
, = = , =
, =
∆
2
∆
Acceleration due to gravity on Earth is −9.8
with 2 significant figures.
1. Determine the acceleration that a rock with mass 0.156 kg will have when thrown with a
force of 120 N?
2. The force used to displace a football player is 467.8 N to the right. The player accelerates at
47.7 m/s2.
a. Determine the mass of the player.
b. Determine the player’s weight?
3. Determine the weight of a person on earth if you know the person weighs -158 N on the
moon. The acceleration due to gravity on the moon is -1.6 m/s2.
4. Draw the free-body diagram of a curling stone gliding on the ice as it accelerates to the right.
Make sure to label the diagram.
5. Draw a new free body diagram for the same stone as it stops accelerating and travels at
constant velocity.
6. Find the net force of an object that is pulled upward with a 56.3 N and pulled downward with a
force of 56.3 N.
7. Find the net force f a ball is kicked to the right (0.0 °) with a force of 597 N and also kicked forward
(90.0°) with a force of 620 N.
a. Determine graphically the magnitude and direction of the external net force on Sam.
Scale:
Answer for Graphical method:
b. Determine mathematically the magnitude and direction of the external net force on Sam.
Answer for
mathematical method: