Question
Cracker Delivery
A delivery person supplies crackers to many grocery stores each day. At each store, boxes of crackers are dropped to the ground from the back of the truck before they are carried into the store.
The picture shows a man in a delivery truck holding a box of crackers. There are more boxes of crackers inside the truck.
When customers open packages of crackers, many of the crackers are broken. The delivery driver needs to address this problem but does not have time to carry the boxes out of the truck and set them on the ground himself.
Inline Dropdown Question
Use the drop-down menus to complete the statement explaining how Newton's third law can be used to design a solution to this problem.
The force exerted on the box by the ground is Query 1
the force exerted on the ground by the box. These forces are in Query 2
. Because of this, the force exerted on the box of crackers will Query 3
by decreasing the force exerted on the ground by the box.
A delivery person supplies crackers to many grocery stores each day. At each store, boxes of crackers are dropped to the ground from the back of the truck before they are carried into the store.
The picture shows a man in a delivery truck holding a box of crackers. There are more boxes of crackers inside the truck.
When customers open packages of crackers, many of the crackers are broken. The delivery driver needs to address this problem but does not have time to carry the boxes out of the truck and set them on the ground himself.
Inline Dropdown Question
Use the drop-down menus to complete the statement explaining how Newton's third law can be used to design a solution to this problem.
The force exerted on the box by the ground is Query 1
the force exerted on the ground by the box. These forces are in Query 2
. Because of this, the force exerted on the box of crackers will Query 3
by decreasing the force exerted on the ground by the box.
Answers
GPT-4o mini
Here’s how to complete the statement using Newton's third law:
The force exerted on the box by the ground is **equal to** the force exerted on the ground by the box. These forces are in **opposite directions**. Because of this, the force exerted on the box of crackers will **be reduced** by decreasing the force exerted on the ground by the box.
This implies that if the box is dropped from a lower height or with a cushioned landing, the impact force on the box can be minimized, thereby reducing the likelihood of the crackers breaking.
The force exerted on the box by the ground is **equal to** the force exerted on the ground by the box. These forces are in **opposite directions**. Because of this, the force exerted on the box of crackers will **be reduced** by decreasing the force exerted on the ground by the box.
This implies that if the box is dropped from a lower height or with a cushioned landing, the impact force on the box can be minimized, thereby reducing the likelihood of the crackers breaking.