Name _____Lesson 4A – Making Electricity Gr.6 By Making a Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following:

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Presentation transcript:

Name _______Lesson 4A – Making Electricity Gr.6 __ By Making a Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following:

Name _______Lesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different _______ in an _____. 2.The 2 types of metals inserted into our lemons were _____ and ________. 3.To measure the amount of voltage in our lemon battery, we use a machine called a _____ _______. A lemon battery can give off about __ volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for _______ __________ __________. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were _____ and ________. 3.To measure the amount of voltage in our lemon battery, we use a machine called a _____ _______. A lemon battery can give off about __ volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for _______ __________ __________. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a _____ _______. A lemon battery can give off about __ volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for _______ __________ __________. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a volt meter. A lemon battery can give off about 1 volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for _______ __________ __________. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a volt meter. A lemon battery can give off about 1 volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for _______ __________ __________. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a volt meter. A lemon battery can give off about 1 volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for Light Emitting Diode. 6. Electrons always flow ____ of the negative terminal and return ___ to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a volt meter. A lemon battery can give off about 1 volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for Light Emitting Diode. 6. Electrons always flow out of the negative terminal and return in to the positive terminal of a battery. 7. It takes at least ___ lemons to produce a dim glow on our LED.

Name ANSWERSLesson 4A – Making Electricity Gr.6 __ By Making a Lemon Battery Watch the Google Video, “Build a Lemon Battery”, then answer the following: 1.A battery can be created by suspending 2 different metals in an acid. 2.The 2 types of metals inserted into our lemons were zinc and copper. 3.To measure the amount of voltage in our lemon battery, we use a machine called a volt meter. A lemon battery can give off about 1 volt. 4. Draw a picture below of a lemon battery labeling the + & - terminals. 5. LED stands for Light Emitting Diode. 6. Electrons always flow out of the negative terminal and return in to the positive terminal of a battery. 7. It takes at least 4 lemons to produce a dim glow on our LED.