Is Goblins free for teachers?

Yes. Goblins offers a generous free tier that includes 1 live feedback assignment per week, insights on student mastery and replays, and the ability to upload your own content. The Max plan adds unlimited assignments, superadaptive mode, grade exports, standards growth reports, and SSO/LMS integration, with per-student pricing for schools and districts.

How does Goblins work?

Three simple steps: (1) Share an assignment from thousands of standards-aligned topics using a share code. (2) Students speak and draw their thinking naturally, and Goblins responds with Socratic questioning that sounds just like their teacher. (3) Teachers get real-time formative insights showing what students struggle with and suggestions to inform instruction.

Does Goblins prevent cheating?

Yes. Goblins uses a purpose-trained AI model that evaluates cheating signals in real time. It can detect when students are copying answers, using external tools inappropriately, or not genuinely working through problems. Copy-pasting answers is also blocked.

Can I use my own voice with Goblins?

Yes. Teachers can record their voice and take a selfie to create a custom 3D avatar in about 30 seconds. Students then hear help in their own teacher's voice and see a familiar face, making the experience more personal and effective.

What math levels does Goblins cover?

Goblins covers math from Grade 5 through AP Calculus, including thousands of standards-aligned topics. Teachers can also upload their own content for custom assignments at any level.

Is Goblins FERPA compliant?

Yes. Goblins is FERPA and state compliant. Student data privacy and security are a top priority.

Does Goblins support English Language Learners?

Yes. Goblins supports 30+ languages so teachers don't have to translate every worksheet. It is especially helpful for ELL students who need accessible math instruction in their native language.

HSF.TF.A.4

Use the unit circle to explain symmetry (odd and even) and periodicity of trigonometric functions.

Example Problems

The displacement

Y(t)

in µm of a loudspeaker diaphragm can be modeled by:

a\cdot\sin(b\cdot t)

At

t = 0

s the diaphragm passes through equilibrium moving outward, and 0.001 s later it reaches its first maximum of 0.008 µm.
Find

Y(t)

, where t is in radians.

A rotating lighthouse beam shines on a distant sensor. The light intensity

L(t)

in arbitrary units can be modeled by:

a\cdot\cos(b\cdot t)+d

At

t = 0

s the intensity is

120

(maximum). Two-and-a-half seconds later it falls to

20

(minimum).
Find

L(t)

, where

t

is in radians.

A mass on a spring oscillates horizontally. Its displacement

X(t)

in m from equilibrium can be modeled by:

a\cdot\cos(b\cdot t)

At

t = 0

s the mass is at maximum extension, 0.15 m. It first passes equilibrium 0.4 s later.
Find

X(t)

, where

t

is in radians.

Khan Academy Resources

Tangent identities: symmetry Sine & cosine identities: periodicity Tangent identities: periodicity Sine & cosine identities: symmetry

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